Sensor Watch Simulator (#35)

* Put something on screen

* Use the 32bit watch_date_time repr to pass from JS

* Implement periodic callbacks

* Clear display on enabling

* Hook up watch_set_led_color() to SVG (green-only)

* Make debug output full-width

* Remove default Emscripten canvas

* Implement sleep and button clicks

* Fix time zone conversion bug in beats-time app

* Clean up warnings

* Fix pin levels

* Set time zone to browser value (if available)

* Add basic backup data saving

* Silence format specifier warnings in both targets

* Remove unnecessary, copied files

* Use RTC pointer to clear callbacks (if available)

* Use preprocessor define to avoid hardcoding MOVEMENT_NUM_FACES

* Change each face to const preprocessor definition

* Remove Intl.DateTimeFormat usage

* Update shell.html title, header

* Add touch start/end event handlers on SVG buttons

* Update shell.html

* Update folder structure (shared, simulator, hardware under watch-library)

* Tease out shared components from watch_slcd

* Clean up simulator watch_slcd.c inline JS calls

* Fix missing newlines at end of file

* Add simulator warnings (except format, unused-paremter)

* Implement remaining watch_rtc functions

* Fix button bug on mouse down then drag out

* Implement remaining watch_slcd functions

* Link keyboard events to buttons (for keys A, L, M)

* Rewrite event handling (mouse, touch, keyboard) in C

* Set explicit text UTF-8 charset in shell.html

* Address PR comments

* Remove unused directories from include paths

37 files changed, 9384 insertions, 0 deletions

diff --git a/watch-library/shared/config/RTE_Components.h b/watch-library/shared/config/RTE_Components.h
new file mode 100644
index 00000000..3ba6b1ba
--- /dev/null
+++ b/watch-library/shared/config/RTE_Components.h
@@ -0,0 +1,54 @@
+ /**

+ * \file

+ *

+ * \brief Autogenerated API include file for the Atmel Configuration Management Engine (ACME)

+ *

+ * Copyright (c) 2012 Atmel Corporation. All rights reserved.

+ *

+ * \acme_license_start

+ *

+ * \page License

+ *

+ * Redistribution and use in source and binary forms, with or without

+ * modification, are permitted provided that the following conditions are met:

+ *

+ * 1. Redistributions of source code must retain the above copyright notice,

+ *    this list of conditions and the following disclaimer.

+ *

+ * 2. Redistributions in binary form must reproduce the above copyright notice,

+ *    this list of conditions and the following disclaimer in the documentation

+ *    and/or other materials provided with the distribution.

+ *

+ * 3. The name of Atmel may not be used to endorse or promote products derived

+ *    from this software without specific prior written permission.

+ *

+ * 4. This software may only be redistributed and used in connection with an

+ *    Atmel microcontroller product.

+ *

+ * THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR IMPLIED

+ * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF

+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE

+ * EXPRESSLY AND SPECIFICALLY DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR

+ * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL

+ * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS

+ * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)

+ * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,

+ * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN

+ * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE

+ * POSSIBILITY OF SUCH DAMAGE.

+ *

+ * \acme_license_stop

+ *

+ * Project: My Project

+ * Target:  ATSAML22J18A 

+ *

+ **/

+

+

+#ifndef RTE_COMPONENTS_H

+#define RTE_COMPONENTS_H

+

+

+#define ATMEL_START

+

+#endif /* RTE_COMPONENTS_H */

diff --git a/watch-library/shared/config/hpl_dmac_config.h b/watch-library/shared/config/hpl_dmac_config.h
new file mode 100644
index 00000000..36adb88b
--- /dev/null
+++ b/watch-library/shared/config/hpl_dmac_config.h
@@ -0,0 +1,3122 @@
+/* Auto-generated config file hpl_dmac_config.h */
+#ifndef HPL_DMAC_CONFIG_H
+#define HPL_DMAC_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <e> DMAC enable
+// <i> Indicates whether dmac is enabled or not
+// <id> dmac_enable
+#ifndef CONF_DMAC_ENABLE
+#define CONF_DMAC_ENABLE 0
+#endif
+
+// <q> Priority Level 0
+// <i> Indicates whether Priority Level 0 is enabled or not
+// <id> dmac_lvlen0
+#ifndef CONF_DMAC_LVLEN0
+#define CONF_DMAC_LVLEN0 0
+#endif
+
+// <o> Level 0 Round-Robin Arbitration
+// <0=> Static arbitration scheme for channel with priority 0
+// <1=> Round-robin arbitration scheme for channel with priority 0
+// <i> Defines Level 0 Arbitration for DMA channels
+// <id> dmac_rrlvlen0
+#ifndef CONF_DMAC_RRLVLEN0
+#define CONF_DMAC_RRLVLEN0 0
+#endif
+
+// <o> Level 0 Channel Priority Number <0x00-0xFF>
+// <id> dmac_lvlpri0
+#ifndef CONF_DMAC_LVLPRI0
+#define CONF_DMAC_LVLPRI0 0
+#endif
+
+// <q> Priority Level 1
+// <i> Indicates whether Priority Level 1 is enabled or not
+// <id> dmac_lvlen1
+#ifndef CONF_DMAC_LVLEN1
+#define CONF_DMAC_LVLEN1 0
+#endif
+
+// <o> Level 1 Round-Robin Arbitration
+// <0=> Static arbitration scheme for channel with priority 1
+// <1=> Round-robin arbitration scheme for channel with priority 1
+// <i> Defines Level 1 Arbitration for DMA channels
+// <id> dmac_rrlvlen1
+#ifndef CONF_DMAC_RRLVLEN1
+#define CONF_DMAC_RRLVLEN1 0
+#endif
+
+// <o> Level 1 Channel Priority Number <0x00-0xFF>
+// <id> dmac_lvlpri1
+#ifndef CONF_DMAC_LVLPRI1
+#define CONF_DMAC_LVLPRI1 0
+#endif
+
+// <q> Priority Level 2
+// <i> Indicates whether Priority Level 2 is enabled or not
+// <id> dmac_lvlen2
+#ifndef CONF_DMAC_LVLEN2
+#define CONF_DMAC_LVLEN2 0
+#endif
+
+// <o> Level 2 Round-Robin Arbitration
+// <0=> Static arbitration scheme for channel with priority 2
+// <1=> Round-robin arbitration scheme for channel with priority 2
+// <i> Defines Level 2 Arbitration for DMA channels
+// <id> dmac_rrlvlen2
+#ifndef CONF_DMAC_RRLVLEN2
+#define CONF_DMAC_RRLVLEN2 0
+#endif
+
+// <o> Level 2 Channel Priority Number <0x00-0xFF>
+// <id> dmac_lvlpri2
+#ifndef CONF_DMAC_LVLPRI2
+#define CONF_DMAC_LVLPRI2 0
+#endif
+
+// <q> Priority Level 3
+// <i> Indicates whether Priority Level 3 is enabled or not
+// <id> dmac_lvlen3
+#ifndef CONF_DMAC_LVLEN3
+#define CONF_DMAC_LVLEN3 0
+#endif
+
+// <o> Level 3 Round-Robin Arbitration
+// <0=> Static arbitration scheme for channel with priority 3
+// <1=> Round-robin arbitration scheme for channel with priority 3
+// <i> Defines Level 3 Arbitration for DMA channels
+// <id> dmac_rrlvlen3
+#ifndef CONF_DMAC_RRLVLEN3
+#define CONF_DMAC_RRLVLEN3 0
+#endif
+
+// <o> Level 3 Channel Priority Number <0x00-0xFF>
+// <id> dmac_lvlpri3
+#ifndef CONF_DMAC_LVLPRI3
+#define CONF_DMAC_LVLPRI3 0
+#endif
+
+// <o> Data Transfer Quality of Service
+// <0=> Background (no sensitive operation)
+// <1=> Sensitive bandwidth
+// <2=> Sensitive latency
+// <3=> Critical latency
+// <i> Defines the memory priority access during the data transfer operation
+// <id> dmac_dqos
+#ifndef CONF_DMAC_DQOS
+#define CONF_DMAC_DQOS 0
+#endif
+
+// <o> Fetch Quality of Service
+// <0=> Background (no sensitive operation)
+// <1=> Sensitive bandwidth
+// <2=> Sensitive latency
+// <3=> Critical latency
+// <i> Defines the memory priority access during the fetch operation
+// <id> dmac_fqos
+#ifndef CONF_DMAC_FQOS
+#define CONF_DMAC_FQOS 0
+#endif
+
+// <o> Write-Back Quality of Service
+// <0=> Background (no sensitive operation)
+// <1=> Sensitive bandwidth
+// <2=> Sensitive latency
+// <3=> Critical latency
+// <i> Defines the memory priority access during the write-back operation
+// <id> dmac_wrbqos
+#ifndef CONF_DMAC_WRBQOS
+#define CONF_DMAC_WRBQOS 0
+#endif
+
+// <q> Debug Run
+// <i> Indicates whether Debug Run is enabled or not
+// <id> dmac_dbgrun
+#ifndef CONF_DMAC_DBGRUN
+#define CONF_DMAC_DBGRUN 0
+#endif
+
+// <e> Channel 0 settings
+// <id> dmac_channel_0_settings
+#ifndef CONF_DMAC_CHANNEL_0_SETTINGS
+#define CONF_DMAC_CHANNEL_0_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 0 is enabled or not
+// <id> dmac_enable_0
+#ifndef CONF_DMAC_ENABLE_0
+#define CONF_DMAC_ENABLE_0 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 0 is running in standby mode or not
+// <id> dmac_runstdby_0
+#ifndef CONF_DMAC_RUNSTDBY_0
+#define CONF_DMAC_RUNSTDBY_0 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_0
+#ifndef CONF_DMAC_TRIGACT_0
+#define CONF_DMAC_TRIGACT_0 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_0
+#ifndef CONF_DMAC_TRIGSRC_0
+#define CONF_DMAC_TRIGSRC_0 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_0
+#ifndef CONF_DMAC_LVL_0
+#define CONF_DMAC_LVL_0 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_0
+#ifndef CONF_DMAC_EVOE_0
+#define CONF_DMAC_EVOE_0 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_0
+#ifndef CONF_DMAC_EVIE_0
+#define CONF_DMAC_EVIE_0 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_0
+#ifndef CONF_DMAC_EVACT_0
+#define CONF_DMAC_EVACT_0 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_0
+#ifndef CONF_DMAC_STEPSIZE_0
+#define CONF_DMAC_STEPSIZE_0 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_0
+#ifndef CONF_DMAC_STEPSEL_0
+#define CONF_DMAC_STEPSEL_0 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_0
+#ifndef CONF_DMAC_SRCINC_0
+#define CONF_DMAC_SRCINC_0 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_0
+#ifndef CONF_DMAC_DSTINC_0
+#define CONF_DMAC_DSTINC_0 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_0
+#ifndef CONF_DMAC_BEATSIZE_0
+#define CONF_DMAC_BEATSIZE_0 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_0
+#ifndef CONF_DMAC_BLOCKACT_0
+#define CONF_DMAC_BLOCKACT_0 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_0
+#ifndef CONF_DMAC_EVOSEL_0
+#define CONF_DMAC_EVOSEL_0 0
+#endif
+// </e>
+
+// <e> Channel 1 settings
+// <id> dmac_channel_1_settings
+#ifndef CONF_DMAC_CHANNEL_1_SETTINGS
+#define CONF_DMAC_CHANNEL_1_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 1 is enabled or not
+// <id> dmac_enable_1
+#ifndef CONF_DMAC_ENABLE_1
+#define CONF_DMAC_ENABLE_1 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 1 is running in standby mode or not
+// <id> dmac_runstdby_1
+#ifndef CONF_DMAC_RUNSTDBY_1
+#define CONF_DMAC_RUNSTDBY_1 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_1
+#ifndef CONF_DMAC_TRIGACT_1
+#define CONF_DMAC_TRIGACT_1 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_1
+#ifndef CONF_DMAC_TRIGSRC_1
+#define CONF_DMAC_TRIGSRC_1 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_1
+#ifndef CONF_DMAC_LVL_1
+#define CONF_DMAC_LVL_1 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_1
+#ifndef CONF_DMAC_EVOE_1
+#define CONF_DMAC_EVOE_1 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_1
+#ifndef CONF_DMAC_EVIE_1
+#define CONF_DMAC_EVIE_1 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_1
+#ifndef CONF_DMAC_EVACT_1
+#define CONF_DMAC_EVACT_1 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_1
+#ifndef CONF_DMAC_STEPSIZE_1
+#define CONF_DMAC_STEPSIZE_1 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_1
+#ifndef CONF_DMAC_STEPSEL_1
+#define CONF_DMAC_STEPSEL_1 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_1
+#ifndef CONF_DMAC_SRCINC_1
+#define CONF_DMAC_SRCINC_1 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_1
+#ifndef CONF_DMAC_DSTINC_1
+#define CONF_DMAC_DSTINC_1 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_1
+#ifndef CONF_DMAC_BEATSIZE_1
+#define CONF_DMAC_BEATSIZE_1 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_1
+#ifndef CONF_DMAC_BLOCKACT_1
+#define CONF_DMAC_BLOCKACT_1 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_1
+#ifndef CONF_DMAC_EVOSEL_1
+#define CONF_DMAC_EVOSEL_1 0
+#endif
+// </e>
+
+// <e> Channel 2 settings
+// <id> dmac_channel_2_settings
+#ifndef CONF_DMAC_CHANNEL_2_SETTINGS
+#define CONF_DMAC_CHANNEL_2_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 2 is enabled or not
+// <id> dmac_enable_2
+#ifndef CONF_DMAC_ENABLE_2
+#define CONF_DMAC_ENABLE_2 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 2 is running in standby mode or not
+// <id> dmac_runstdby_2
+#ifndef CONF_DMAC_RUNSTDBY_2
+#define CONF_DMAC_RUNSTDBY_2 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_2
+#ifndef CONF_DMAC_TRIGACT_2
+#define CONF_DMAC_TRIGACT_2 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_2
+#ifndef CONF_DMAC_TRIGSRC_2
+#define CONF_DMAC_TRIGSRC_2 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_2
+#ifndef CONF_DMAC_LVL_2
+#define CONF_DMAC_LVL_2 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_2
+#ifndef CONF_DMAC_EVOE_2
+#define CONF_DMAC_EVOE_2 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_2
+#ifndef CONF_DMAC_EVIE_2
+#define CONF_DMAC_EVIE_2 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_2
+#ifndef CONF_DMAC_EVACT_2
+#define CONF_DMAC_EVACT_2 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_2
+#ifndef CONF_DMAC_STEPSIZE_2
+#define CONF_DMAC_STEPSIZE_2 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_2
+#ifndef CONF_DMAC_STEPSEL_2
+#define CONF_DMAC_STEPSEL_2 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_2
+#ifndef CONF_DMAC_SRCINC_2
+#define CONF_DMAC_SRCINC_2 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_2
+#ifndef CONF_DMAC_DSTINC_2
+#define CONF_DMAC_DSTINC_2 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_2
+#ifndef CONF_DMAC_BEATSIZE_2
+#define CONF_DMAC_BEATSIZE_2 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_2
+#ifndef CONF_DMAC_BLOCKACT_2
+#define CONF_DMAC_BLOCKACT_2 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_2
+#ifndef CONF_DMAC_EVOSEL_2
+#define CONF_DMAC_EVOSEL_2 0
+#endif
+// </e>
+
+// <e> Channel 3 settings
+// <id> dmac_channel_3_settings
+#ifndef CONF_DMAC_CHANNEL_3_SETTINGS
+#define CONF_DMAC_CHANNEL_3_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 3 is enabled or not
+// <id> dmac_enable_3
+#ifndef CONF_DMAC_ENABLE_3
+#define CONF_DMAC_ENABLE_3 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 3 is running in standby mode or not
+// <id> dmac_runstdby_3
+#ifndef CONF_DMAC_RUNSTDBY_3
+#define CONF_DMAC_RUNSTDBY_3 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_3
+#ifndef CONF_DMAC_TRIGACT_3
+#define CONF_DMAC_TRIGACT_3 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_3
+#ifndef CONF_DMAC_TRIGSRC_3
+#define CONF_DMAC_TRIGSRC_3 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_3
+#ifndef CONF_DMAC_LVL_3
+#define CONF_DMAC_LVL_3 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_3
+#ifndef CONF_DMAC_EVOE_3
+#define CONF_DMAC_EVOE_3 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_3
+#ifndef CONF_DMAC_EVIE_3
+#define CONF_DMAC_EVIE_3 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_3
+#ifndef CONF_DMAC_EVACT_3
+#define CONF_DMAC_EVACT_3 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_3
+#ifndef CONF_DMAC_STEPSIZE_3
+#define CONF_DMAC_STEPSIZE_3 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_3
+#ifndef CONF_DMAC_STEPSEL_3
+#define CONF_DMAC_STEPSEL_3 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_3
+#ifndef CONF_DMAC_SRCINC_3
+#define CONF_DMAC_SRCINC_3 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_3
+#ifndef CONF_DMAC_DSTINC_3
+#define CONF_DMAC_DSTINC_3 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_3
+#ifndef CONF_DMAC_BEATSIZE_3
+#define CONF_DMAC_BEATSIZE_3 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_3
+#ifndef CONF_DMAC_BLOCKACT_3
+#define CONF_DMAC_BLOCKACT_3 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_3
+#ifndef CONF_DMAC_EVOSEL_3
+#define CONF_DMAC_EVOSEL_3 0
+#endif
+// </e>
+
+// <e> Channel 4 settings
+// <id> dmac_channel_4_settings
+#ifndef CONF_DMAC_CHANNEL_4_SETTINGS
+#define CONF_DMAC_CHANNEL_4_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 4 is enabled or not
+// <id> dmac_enable_4
+#ifndef CONF_DMAC_ENABLE_4
+#define CONF_DMAC_ENABLE_4 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 4 is running in standby mode or not
+// <id> dmac_runstdby_4
+#ifndef CONF_DMAC_RUNSTDBY_4
+#define CONF_DMAC_RUNSTDBY_4 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_4
+#ifndef CONF_DMAC_TRIGACT_4
+#define CONF_DMAC_TRIGACT_4 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_4
+#ifndef CONF_DMAC_TRIGSRC_4
+#define CONF_DMAC_TRIGSRC_4 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_4
+#ifndef CONF_DMAC_LVL_4
+#define CONF_DMAC_LVL_4 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_4
+#ifndef CONF_DMAC_EVOE_4
+#define CONF_DMAC_EVOE_4 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_4
+#ifndef CONF_DMAC_EVIE_4
+#define CONF_DMAC_EVIE_4 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_4
+#ifndef CONF_DMAC_EVACT_4
+#define CONF_DMAC_EVACT_4 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_4
+#ifndef CONF_DMAC_STEPSIZE_4
+#define CONF_DMAC_STEPSIZE_4 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_4
+#ifndef CONF_DMAC_STEPSEL_4
+#define CONF_DMAC_STEPSEL_4 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_4
+#ifndef CONF_DMAC_SRCINC_4
+#define CONF_DMAC_SRCINC_4 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_4
+#ifndef CONF_DMAC_DSTINC_4
+#define CONF_DMAC_DSTINC_4 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_4
+#ifndef CONF_DMAC_BEATSIZE_4
+#define CONF_DMAC_BEATSIZE_4 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_4
+#ifndef CONF_DMAC_BLOCKACT_4
+#define CONF_DMAC_BLOCKACT_4 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_4
+#ifndef CONF_DMAC_EVOSEL_4
+#define CONF_DMAC_EVOSEL_4 0
+#endif
+// </e>
+
+// <e> Channel 5 settings
+// <id> dmac_channel_5_settings
+#ifndef CONF_DMAC_CHANNEL_5_SETTINGS
+#define CONF_DMAC_CHANNEL_5_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 5 is enabled or not
+// <id> dmac_enable_5
+#ifndef CONF_DMAC_ENABLE_5
+#define CONF_DMAC_ENABLE_5 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 5 is running in standby mode or not
+// <id> dmac_runstdby_5
+#ifndef CONF_DMAC_RUNSTDBY_5
+#define CONF_DMAC_RUNSTDBY_5 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_5
+#ifndef CONF_DMAC_TRIGACT_5
+#define CONF_DMAC_TRIGACT_5 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_5
+#ifndef CONF_DMAC_TRIGSRC_5
+#define CONF_DMAC_TRIGSRC_5 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_5
+#ifndef CONF_DMAC_LVL_5
+#define CONF_DMAC_LVL_5 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_5
+#ifndef CONF_DMAC_EVOE_5
+#define CONF_DMAC_EVOE_5 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_5
+#ifndef CONF_DMAC_EVIE_5
+#define CONF_DMAC_EVIE_5 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_5
+#ifndef CONF_DMAC_EVACT_5
+#define CONF_DMAC_EVACT_5 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_5
+#ifndef CONF_DMAC_STEPSIZE_5
+#define CONF_DMAC_STEPSIZE_5 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_5
+#ifndef CONF_DMAC_STEPSEL_5
+#define CONF_DMAC_STEPSEL_5 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_5
+#ifndef CONF_DMAC_SRCINC_5
+#define CONF_DMAC_SRCINC_5 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_5
+#ifndef CONF_DMAC_DSTINC_5
+#define CONF_DMAC_DSTINC_5 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_5
+#ifndef CONF_DMAC_BEATSIZE_5
+#define CONF_DMAC_BEATSIZE_5 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_5
+#ifndef CONF_DMAC_BLOCKACT_5
+#define CONF_DMAC_BLOCKACT_5 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_5
+#ifndef CONF_DMAC_EVOSEL_5
+#define CONF_DMAC_EVOSEL_5 0
+#endif
+// </e>
+
+// <e> Channel 6 settings
+// <id> dmac_channel_6_settings
+#ifndef CONF_DMAC_CHANNEL_6_SETTINGS
+#define CONF_DMAC_CHANNEL_6_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 6 is enabled or not
+// <id> dmac_enable_6
+#ifndef CONF_DMAC_ENABLE_6
+#define CONF_DMAC_ENABLE_6 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 6 is running in standby mode or not
+// <id> dmac_runstdby_6
+#ifndef CONF_DMAC_RUNSTDBY_6
+#define CONF_DMAC_RUNSTDBY_6 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_6
+#ifndef CONF_DMAC_TRIGACT_6
+#define CONF_DMAC_TRIGACT_6 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_6
+#ifndef CONF_DMAC_TRIGSRC_6
+#define CONF_DMAC_TRIGSRC_6 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_6
+#ifndef CONF_DMAC_LVL_6
+#define CONF_DMAC_LVL_6 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_6
+#ifndef CONF_DMAC_EVOE_6
+#define CONF_DMAC_EVOE_6 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_6
+#ifndef CONF_DMAC_EVIE_6
+#define CONF_DMAC_EVIE_6 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_6
+#ifndef CONF_DMAC_EVACT_6
+#define CONF_DMAC_EVACT_6 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_6
+#ifndef CONF_DMAC_STEPSIZE_6
+#define CONF_DMAC_STEPSIZE_6 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_6
+#ifndef CONF_DMAC_STEPSEL_6
+#define CONF_DMAC_STEPSEL_6 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_6
+#ifndef CONF_DMAC_SRCINC_6
+#define CONF_DMAC_SRCINC_6 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_6
+#ifndef CONF_DMAC_DSTINC_6
+#define CONF_DMAC_DSTINC_6 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_6
+#ifndef CONF_DMAC_BEATSIZE_6
+#define CONF_DMAC_BEATSIZE_6 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_6
+#ifndef CONF_DMAC_BLOCKACT_6
+#define CONF_DMAC_BLOCKACT_6 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_6
+#ifndef CONF_DMAC_EVOSEL_6
+#define CONF_DMAC_EVOSEL_6 0
+#endif
+// </e>
+
+// <e> Channel 7 settings
+// <id> dmac_channel_7_settings
+#ifndef CONF_DMAC_CHANNEL_7_SETTINGS
+#define CONF_DMAC_CHANNEL_7_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 7 is enabled or not
+// <id> dmac_enable_7
+#ifndef CONF_DMAC_ENABLE_7
+#define CONF_DMAC_ENABLE_7 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 7 is running in standby mode or not
+// <id> dmac_runstdby_7
+#ifndef CONF_DMAC_RUNSTDBY_7
+#define CONF_DMAC_RUNSTDBY_7 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_7
+#ifndef CONF_DMAC_TRIGACT_7
+#define CONF_DMAC_TRIGACT_7 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_7
+#ifndef CONF_DMAC_TRIGSRC_7
+#define CONF_DMAC_TRIGSRC_7 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_7
+#ifndef CONF_DMAC_LVL_7
+#define CONF_DMAC_LVL_7 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_7
+#ifndef CONF_DMAC_EVOE_7
+#define CONF_DMAC_EVOE_7 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_7
+#ifndef CONF_DMAC_EVIE_7
+#define CONF_DMAC_EVIE_7 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_7
+#ifndef CONF_DMAC_EVACT_7
+#define CONF_DMAC_EVACT_7 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_7
+#ifndef CONF_DMAC_STEPSIZE_7
+#define CONF_DMAC_STEPSIZE_7 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_7
+#ifndef CONF_DMAC_STEPSEL_7
+#define CONF_DMAC_STEPSEL_7 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_7
+#ifndef CONF_DMAC_SRCINC_7
+#define CONF_DMAC_SRCINC_7 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_7
+#ifndef CONF_DMAC_DSTINC_7
+#define CONF_DMAC_DSTINC_7 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_7
+#ifndef CONF_DMAC_BEATSIZE_7
+#define CONF_DMAC_BEATSIZE_7 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_7
+#ifndef CONF_DMAC_BLOCKACT_7
+#define CONF_DMAC_BLOCKACT_7 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_7
+#ifndef CONF_DMAC_EVOSEL_7
+#define CONF_DMAC_EVOSEL_7 0
+#endif
+// </e>
+
+// <e> Channel 8 settings
+// <id> dmac_channel_8_settings
+#ifndef CONF_DMAC_CHANNEL_8_SETTINGS
+#define CONF_DMAC_CHANNEL_8_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 8 is enabled or not
+// <id> dmac_enable_8
+#ifndef CONF_DMAC_ENABLE_8
+#define CONF_DMAC_ENABLE_8 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 8 is running in standby mode or not
+// <id> dmac_runstdby_8
+#ifndef CONF_DMAC_RUNSTDBY_8
+#define CONF_DMAC_RUNSTDBY_8 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_8
+#ifndef CONF_DMAC_TRIGACT_8
+#define CONF_DMAC_TRIGACT_8 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_8
+#ifndef CONF_DMAC_TRIGSRC_8
+#define CONF_DMAC_TRIGSRC_8 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_8
+#ifndef CONF_DMAC_LVL_8
+#define CONF_DMAC_LVL_8 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_8
+#ifndef CONF_DMAC_EVOE_8
+#define CONF_DMAC_EVOE_8 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_8
+#ifndef CONF_DMAC_EVIE_8
+#define CONF_DMAC_EVIE_8 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_8
+#ifndef CONF_DMAC_EVACT_8
+#define CONF_DMAC_EVACT_8 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_8
+#ifndef CONF_DMAC_STEPSIZE_8
+#define CONF_DMAC_STEPSIZE_8 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_8
+#ifndef CONF_DMAC_STEPSEL_8
+#define CONF_DMAC_STEPSEL_8 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_8
+#ifndef CONF_DMAC_SRCINC_8
+#define CONF_DMAC_SRCINC_8 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_8
+#ifndef CONF_DMAC_DSTINC_8
+#define CONF_DMAC_DSTINC_8 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_8
+#ifndef CONF_DMAC_BEATSIZE_8
+#define CONF_DMAC_BEATSIZE_8 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_8
+#ifndef CONF_DMAC_BLOCKACT_8
+#define CONF_DMAC_BLOCKACT_8 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_8
+#ifndef CONF_DMAC_EVOSEL_8
+#define CONF_DMAC_EVOSEL_8 0
+#endif
+// </e>
+
+// <e> Channel 9 settings
+// <id> dmac_channel_9_settings
+#ifndef CONF_DMAC_CHANNEL_9_SETTINGS
+#define CONF_DMAC_CHANNEL_9_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 9 is enabled or not
+// <id> dmac_enable_9
+#ifndef CONF_DMAC_ENABLE_9
+#define CONF_DMAC_ENABLE_9 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 9 is running in standby mode or not
+// <id> dmac_runstdby_9
+#ifndef CONF_DMAC_RUNSTDBY_9
+#define CONF_DMAC_RUNSTDBY_9 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_9
+#ifndef CONF_DMAC_TRIGACT_9
+#define CONF_DMAC_TRIGACT_9 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_9
+#ifndef CONF_DMAC_TRIGSRC_9
+#define CONF_DMAC_TRIGSRC_9 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_9
+#ifndef CONF_DMAC_LVL_9
+#define CONF_DMAC_LVL_9 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_9
+#ifndef CONF_DMAC_EVOE_9
+#define CONF_DMAC_EVOE_9 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_9
+#ifndef CONF_DMAC_EVIE_9
+#define CONF_DMAC_EVIE_9 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_9
+#ifndef CONF_DMAC_EVACT_9
+#define CONF_DMAC_EVACT_9 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_9
+#ifndef CONF_DMAC_STEPSIZE_9
+#define CONF_DMAC_STEPSIZE_9 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_9
+#ifndef CONF_DMAC_STEPSEL_9
+#define CONF_DMAC_STEPSEL_9 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_9
+#ifndef CONF_DMAC_SRCINC_9
+#define CONF_DMAC_SRCINC_9 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_9
+#ifndef CONF_DMAC_DSTINC_9
+#define CONF_DMAC_DSTINC_9 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_9
+#ifndef CONF_DMAC_BEATSIZE_9
+#define CONF_DMAC_BEATSIZE_9 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_9
+#ifndef CONF_DMAC_BLOCKACT_9
+#define CONF_DMAC_BLOCKACT_9 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_9
+#ifndef CONF_DMAC_EVOSEL_9
+#define CONF_DMAC_EVOSEL_9 0
+#endif
+// </e>
+
+// <e> Channel 10 settings
+// <id> dmac_channel_10_settings
+#ifndef CONF_DMAC_CHANNEL_10_SETTINGS
+#define CONF_DMAC_CHANNEL_10_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 10 is enabled or not
+// <id> dmac_enable_10
+#ifndef CONF_DMAC_ENABLE_10
+#define CONF_DMAC_ENABLE_10 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 10 is running in standby mode or not
+// <id> dmac_runstdby_10
+#ifndef CONF_DMAC_RUNSTDBY_10
+#define CONF_DMAC_RUNSTDBY_10 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_10
+#ifndef CONF_DMAC_TRIGACT_10
+#define CONF_DMAC_TRIGACT_10 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_10
+#ifndef CONF_DMAC_TRIGSRC_10
+#define CONF_DMAC_TRIGSRC_10 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_10
+#ifndef CONF_DMAC_LVL_10
+#define CONF_DMAC_LVL_10 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_10
+#ifndef CONF_DMAC_EVOE_10
+#define CONF_DMAC_EVOE_10 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_10
+#ifndef CONF_DMAC_EVIE_10
+#define CONF_DMAC_EVIE_10 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_10
+#ifndef CONF_DMAC_EVACT_10
+#define CONF_DMAC_EVACT_10 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_10
+#ifndef CONF_DMAC_STEPSIZE_10
+#define CONF_DMAC_STEPSIZE_10 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_10
+#ifndef CONF_DMAC_STEPSEL_10
+#define CONF_DMAC_STEPSEL_10 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_10
+#ifndef CONF_DMAC_SRCINC_10
+#define CONF_DMAC_SRCINC_10 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_10
+#ifndef CONF_DMAC_DSTINC_10
+#define CONF_DMAC_DSTINC_10 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_10
+#ifndef CONF_DMAC_BEATSIZE_10
+#define CONF_DMAC_BEATSIZE_10 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_10
+#ifndef CONF_DMAC_BLOCKACT_10
+#define CONF_DMAC_BLOCKACT_10 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_10
+#ifndef CONF_DMAC_EVOSEL_10
+#define CONF_DMAC_EVOSEL_10 0
+#endif
+// </e>
+
+// <e> Channel 11 settings
+// <id> dmac_channel_11_settings
+#ifndef CONF_DMAC_CHANNEL_11_SETTINGS
+#define CONF_DMAC_CHANNEL_11_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 11 is enabled or not
+// <id> dmac_enable_11
+#ifndef CONF_DMAC_ENABLE_11
+#define CONF_DMAC_ENABLE_11 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 11 is running in standby mode or not
+// <id> dmac_runstdby_11
+#ifndef CONF_DMAC_RUNSTDBY_11
+#define CONF_DMAC_RUNSTDBY_11 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_11
+#ifndef CONF_DMAC_TRIGACT_11
+#define CONF_DMAC_TRIGACT_11 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_11
+#ifndef CONF_DMAC_TRIGSRC_11
+#define CONF_DMAC_TRIGSRC_11 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_11
+#ifndef CONF_DMAC_LVL_11
+#define CONF_DMAC_LVL_11 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_11
+#ifndef CONF_DMAC_EVOE_11
+#define CONF_DMAC_EVOE_11 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_11
+#ifndef CONF_DMAC_EVIE_11
+#define CONF_DMAC_EVIE_11 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_11
+#ifndef CONF_DMAC_EVACT_11
+#define CONF_DMAC_EVACT_11 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_11
+#ifndef CONF_DMAC_STEPSIZE_11
+#define CONF_DMAC_STEPSIZE_11 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_11
+#ifndef CONF_DMAC_STEPSEL_11
+#define CONF_DMAC_STEPSEL_11 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_11
+#ifndef CONF_DMAC_SRCINC_11
+#define CONF_DMAC_SRCINC_11 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_11
+#ifndef CONF_DMAC_DSTINC_11
+#define CONF_DMAC_DSTINC_11 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_11
+#ifndef CONF_DMAC_BEATSIZE_11
+#define CONF_DMAC_BEATSIZE_11 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_11
+#ifndef CONF_DMAC_BLOCKACT_11
+#define CONF_DMAC_BLOCKACT_11 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_11
+#ifndef CONF_DMAC_EVOSEL_11
+#define CONF_DMAC_EVOSEL_11 0
+#endif
+// </e>
+
+// <e> Channel 12 settings
+// <id> dmac_channel_12_settings
+#ifndef CONF_DMAC_CHANNEL_12_SETTINGS
+#define CONF_DMAC_CHANNEL_12_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 12 is enabled or not
+// <id> dmac_enable_12
+#ifndef CONF_DMAC_ENABLE_12
+#define CONF_DMAC_ENABLE_12 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 12 is running in standby mode or not
+// <id> dmac_runstdby_12
+#ifndef CONF_DMAC_RUNSTDBY_12
+#define CONF_DMAC_RUNSTDBY_12 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_12
+#ifndef CONF_DMAC_TRIGACT_12
+#define CONF_DMAC_TRIGACT_12 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_12
+#ifndef CONF_DMAC_TRIGSRC_12
+#define CONF_DMAC_TRIGSRC_12 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_12
+#ifndef CONF_DMAC_LVL_12
+#define CONF_DMAC_LVL_12 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_12
+#ifndef CONF_DMAC_EVOE_12
+#define CONF_DMAC_EVOE_12 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_12
+#ifndef CONF_DMAC_EVIE_12
+#define CONF_DMAC_EVIE_12 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_12
+#ifndef CONF_DMAC_EVACT_12
+#define CONF_DMAC_EVACT_12 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_12
+#ifndef CONF_DMAC_STEPSIZE_12
+#define CONF_DMAC_STEPSIZE_12 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_12
+#ifndef CONF_DMAC_STEPSEL_12
+#define CONF_DMAC_STEPSEL_12 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_12
+#ifndef CONF_DMAC_SRCINC_12
+#define CONF_DMAC_SRCINC_12 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_12
+#ifndef CONF_DMAC_DSTINC_12
+#define CONF_DMAC_DSTINC_12 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_12
+#ifndef CONF_DMAC_BEATSIZE_12
+#define CONF_DMAC_BEATSIZE_12 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_12
+#ifndef CONF_DMAC_BLOCKACT_12
+#define CONF_DMAC_BLOCKACT_12 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_12
+#ifndef CONF_DMAC_EVOSEL_12
+#define CONF_DMAC_EVOSEL_12 0
+#endif
+// </e>
+
+// <e> Channel 13 settings
+// <id> dmac_channel_13_settings
+#ifndef CONF_DMAC_CHANNEL_13_SETTINGS
+#define CONF_DMAC_CHANNEL_13_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 13 is enabled or not
+// <id> dmac_enable_13
+#ifndef CONF_DMAC_ENABLE_13
+#define CONF_DMAC_ENABLE_13 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 13 is running in standby mode or not
+// <id> dmac_runstdby_13
+#ifndef CONF_DMAC_RUNSTDBY_13
+#define CONF_DMAC_RUNSTDBY_13 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_13
+#ifndef CONF_DMAC_TRIGACT_13
+#define CONF_DMAC_TRIGACT_13 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_13
+#ifndef CONF_DMAC_TRIGSRC_13
+#define CONF_DMAC_TRIGSRC_13 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_13
+#ifndef CONF_DMAC_LVL_13
+#define CONF_DMAC_LVL_13 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_13
+#ifndef CONF_DMAC_EVOE_13
+#define CONF_DMAC_EVOE_13 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_13
+#ifndef CONF_DMAC_EVIE_13
+#define CONF_DMAC_EVIE_13 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_13
+#ifndef CONF_DMAC_EVACT_13
+#define CONF_DMAC_EVACT_13 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_13
+#ifndef CONF_DMAC_STEPSIZE_13
+#define CONF_DMAC_STEPSIZE_13 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_13
+#ifndef CONF_DMAC_STEPSEL_13
+#define CONF_DMAC_STEPSEL_13 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_13
+#ifndef CONF_DMAC_SRCINC_13
+#define CONF_DMAC_SRCINC_13 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_13
+#ifndef CONF_DMAC_DSTINC_13
+#define CONF_DMAC_DSTINC_13 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_13
+#ifndef CONF_DMAC_BEATSIZE_13
+#define CONF_DMAC_BEATSIZE_13 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_13
+#ifndef CONF_DMAC_BLOCKACT_13
+#define CONF_DMAC_BLOCKACT_13 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_13
+#ifndef CONF_DMAC_EVOSEL_13
+#define CONF_DMAC_EVOSEL_13 0
+#endif
+// </e>
+
+// <e> Channel 14 settings
+// <id> dmac_channel_14_settings
+#ifndef CONF_DMAC_CHANNEL_14_SETTINGS
+#define CONF_DMAC_CHANNEL_14_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 14 is enabled or not
+// <id> dmac_enable_14
+#ifndef CONF_DMAC_ENABLE_14
+#define CONF_DMAC_ENABLE_14 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 14 is running in standby mode or not
+// <id> dmac_runstdby_14
+#ifndef CONF_DMAC_RUNSTDBY_14
+#define CONF_DMAC_RUNSTDBY_14 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_14
+#ifndef CONF_DMAC_TRIGACT_14
+#define CONF_DMAC_TRIGACT_14 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_14
+#ifndef CONF_DMAC_TRIGSRC_14
+#define CONF_DMAC_TRIGSRC_14 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_14
+#ifndef CONF_DMAC_LVL_14
+#define CONF_DMAC_LVL_14 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_14
+#ifndef CONF_DMAC_EVOE_14
+#define CONF_DMAC_EVOE_14 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_14
+#ifndef CONF_DMAC_EVIE_14
+#define CONF_DMAC_EVIE_14 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_14
+#ifndef CONF_DMAC_EVACT_14
+#define CONF_DMAC_EVACT_14 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_14
+#ifndef CONF_DMAC_STEPSIZE_14
+#define CONF_DMAC_STEPSIZE_14 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_14
+#ifndef CONF_DMAC_STEPSEL_14
+#define CONF_DMAC_STEPSEL_14 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_14
+#ifndef CONF_DMAC_SRCINC_14
+#define CONF_DMAC_SRCINC_14 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_14
+#ifndef CONF_DMAC_DSTINC_14
+#define CONF_DMAC_DSTINC_14 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_14
+#ifndef CONF_DMAC_BEATSIZE_14
+#define CONF_DMAC_BEATSIZE_14 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_14
+#ifndef CONF_DMAC_BLOCKACT_14
+#define CONF_DMAC_BLOCKACT_14 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_14
+#ifndef CONF_DMAC_EVOSEL_14
+#define CONF_DMAC_EVOSEL_14 0
+#endif
+// </e>
+
+// <e> Channel 15 settings
+// <id> dmac_channel_15_settings
+#ifndef CONF_DMAC_CHANNEL_15_SETTINGS
+#define CONF_DMAC_CHANNEL_15_SETTINGS 0
+#endif
+
+// <q> Channel Enable
+// <i> Indicates whether channel 15 is enabled or not
+// <id> dmac_enable_15
+#ifndef CONF_DMAC_ENABLE_15
+#define CONF_DMAC_ENABLE_15 0
+#endif
+
+// <q> Channel Run in Standby
+// <i> Indicates whether channel 15 is running in standby mode or not
+// <id> dmac_runstdby_15
+#ifndef CONF_DMAC_RUNSTDBY_15
+#define CONF_DMAC_RUNSTDBY_15 0
+#endif
+
+// <o> Trigger action
+// <0=> One trigger required for each block transfer
+// <2=> One trigger required for each beat transfer
+// <3=> One trigger required for each transaction
+// <i> Defines the trigger action used for a transfer
+// <id> dmac_trigact_15
+#ifndef CONF_DMAC_TRIGACT_15
+#define CONF_DMAC_TRIGACT_15 0
+#endif
+
+// <o> Trigger source
+// <0x00=> Only software/event triggers
+// <0x01=> RTC Timestamp
+// <0x02=> SERCOM0 RX Trigger
+// <0x03=> SERCOM0 TX Trigger
+// <0x04=> SERCOM1 RX Trigger
+// <0x05=> SERCOM1 TX Trigger
+// <0x06=> SERCOM2 RX Trigger
+// <0x07=> SERCOM2 TX Trigger
+// <0x08=> SERCOM3 RX Trigger
+// <0x09=> SERCOM3 TX Trigger
+// <0x0A=> SERCOM4 RX Trigger
+// <0x0B=> SERCOM4 TX Trigger
+// <0x0C=> SERCOM5 RX Trigger
+// <0x0D=> SERCOM5 TX Trigger
+// <0x0E=> TCC0 Overflow Trigger
+// <0x0F=> TCC0 Match/Compare 0 Trigger
+// <0x10=> TCC0 Match/Compare 1 Trigger
+// <0x11=> TCC0 Match/Compare 2 Trigger
+// <0x12=> TCC0 Match/Compare 3 Trigger
+// <0x13=> TC0 Overflow Trigger
+// <0x14=> TC0 Match/Compare 0 Trigger
+// <0x15=> TC0 Match/Compare 1 Trigger
+// <0x16=> TC1 Overflow Trigger
+// <0x17=> TC1 Match/Compare 0 Trigger
+// <0x18=> TC1 Match/Compare 1 Trigger
+// <0x19=> TC2 Overflow Trigger
+// <0x1A=> TC2 Match/Compare 0 Trigger
+// <0x1B=> TC2 Match/Compare 1 Trigger
+// <0x1C=> TC3 Overflow Trigger
+// <0x1D=> TC3 Match/Compare 0 Trigger
+// <0x1E=> TC3 Match/Compare 1 Trigger
+// <0x1F=> ADC Result Ready Trigger
+// <0x20=> SLCD Display Memory Update Trigger
+// <0x21=> SLCD Automated Character Mapping Data Ready Trigger
+// <0x22=> SLCD Automated Bit Mapping Data Ready Trigger
+// <0x23=> AES Write Trigger
+// <0x24=> AES Read Trigger
+// <0x25=> PTC End of Conversion Trigger
+// <0x26=> PTC Sequence Trigger
+// <0x27=> PTC Window Comparator Trigger
+// <i> Defines the peripheral trigger which is source of the transfer
+// <id> dmac_trifsrc_15
+#ifndef CONF_DMAC_TRIGSRC_15
+#define CONF_DMAC_TRIGSRC_15 0
+#endif
+
+// <o> Channel Arbitration Level
+// <0=> Channel priority 0
+// <1=> Channel priority 1
+// <2=> Channel priority 2
+// <3=> Channel priority 3
+// <i> Defines the arbitration level for this channel
+// <id> dmac_lvl_15
+#ifndef CONF_DMAC_LVL_15
+#define CONF_DMAC_LVL_15 0
+#endif
+
+// <q> Channel Event Output
+// <i> Indicates whether channel event generation is enabled or not
+// <id> dmac_evoe_15
+#ifndef CONF_DMAC_EVOE_15
+#define CONF_DMAC_EVOE_15 0
+#endif
+
+// <q> Channel Event Input
+// <i> Indicates whether channel event reception is enabled or not
+// <id> dmac_evie_15
+#ifndef CONF_DMAC_EVIE_15
+#define CONF_DMAC_EVIE_15 0
+#endif
+
+// <o> Event Input Action
+// <0=> No action
+// <1=> Normal transfer and conditional transfer on strobe trigger
+// <2=> Conditional transfer trigger
+// <3=> Conditional block transfer
+// <4=> Channel suspend operation
+// <5=> Channel resume operation
+// <6=> Skip next block suspend action
+// <i> Defines the event input action
+// <id> dmac_evact_15
+#ifndef CONF_DMAC_EVACT_15
+#define CONF_DMAC_EVACT_15 0
+#endif
+
+// <o> Address Increment Step Size
+// <0=> Next ADDR = ADDR + (BEATSIZE + 1) * 1
+// <1=> Next ADDR = ADDR + (BEATSIZE + 1) * 2
+// <2=> Next ADDR = ADDR + (BEATSIZE + 1) * 4
+// <3=> Next ADDR = ADDR + (BEATSIZE + 1) * 8
+// <4=> Next ADDR = ADDR + (BEATSIZE + 1) * 16
+// <5=> Next ADDR = ADDR + (BEATSIZE + 1) * 32
+// <6=> Next ADDR = ADDR + (BEATSIZE + 1) * 64
+// <7=> Next ADDR = ADDR + (BEATSIZE + 1) * 128
+// <i> Defines the address increment step size, applies to source or destination address
+// <id> dmac_stepsize_15
+#ifndef CONF_DMAC_STEPSIZE_15
+#define CONF_DMAC_STEPSIZE_15 0
+#endif
+
+// <o> Step Selection
+// <0=> Step size settings apply to the destination address
+// <1=> Step size settings apply to the source address
+// <i> Defines whether source or destination addresses are using the step size settings
+// <id> dmac_stepsel_15
+#ifndef CONF_DMAC_STEPSEL_15
+#define CONF_DMAC_STEPSEL_15 0
+#endif
+
+// <q> Source Address Increment
+// <i> Indicates whether the source address incrementation is enabled or not
+// <id> dmac_srcinc_15
+#ifndef CONF_DMAC_SRCINC_15
+#define CONF_DMAC_SRCINC_15 0
+#endif
+
+// <q> Destination Address Increment
+// <i> Indicates whether the destination address incrementation is enabled or not
+// <id> dmac_dstinc_15
+#ifndef CONF_DMAC_DSTINC_15
+#define CONF_DMAC_DSTINC_15 0
+#endif
+
+// <o> Beat Size
+// <0=> 8-bit bus transfer
+// <1=> 16-bit bus transfer
+// <2=> 32-bit bus transfer
+// <i> Defines the size of one beat
+// <id> dmac_beatsize_15
+#ifndef CONF_DMAC_BEATSIZE_15
+#define CONF_DMAC_BEATSIZE_15 0
+#endif
+
+// <o> Block Action
+// <0=> Channel will be disabled if it is the last block transfer in the transaction
+// <1=> Channel will be disabled if it is the last block transfer in the transaction and block interrupt
+// <2=> Channel suspend operation is complete
+// <3=> Both channel suspend operation and block interrupt
+// <i> Defines the the DMAC should take after a block transfer has completed
+// <id> dmac_blockact_15
+#ifndef CONF_DMAC_BLOCKACT_15
+#define CONF_DMAC_BLOCKACT_15 0
+#endif
+
+// <o> Event Output Selection
+// <0=> Event generation disabled
+// <1=> Event strobe when block transfer complete
+// <3=> Event strobe when beat transfer complete
+// <i> Defines the event output selection
+// <id> dmac_evosel_15
+#ifndef CONF_DMAC_EVOSEL_15
+#define CONF_DMAC_EVOSEL_15 0
+#endif
+// </e>
+
+// </e>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_DMAC_CONFIG_H
diff --git a/watch-library/shared/config/hpl_eic_config.h b/watch-library/shared/config/hpl_eic_config.h
new file mode 100644
index 00000000..be54c2e1
--- /dev/null
+++ b/watch-library/shared/config/hpl_eic_config.h
@@ -0,0 +1,736 @@
+/* Auto-generated config file hpl_eic_config.h */
+#ifndef HPL_EIC_CONFIG_H
+#define HPL_EIC_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <h> Basic Settings
+// <o> Clock Selection
+// <i> Indicates which clock used, The EIC can be clocked either by GCLK_EIC when higher frequency than 32KHz is required for filtering or
+// <i> either by CLK_ULP32K when power consumption is the priority.
+// <0x0=> Clocked by GCLK
+// <0x1=> Clocked by ULPOSC32K
+// <id> eic_arch_cksel
+#ifndef CONF_EIC_CKSEL
+#define CONF_EIC_CKSEL 0
+#endif
+
+// </h>
+
+// <e> Non-Maskable Interrupt Control
+// <id> eic_arch_nmi_ctrl
+#ifndef CONF_EIC_ENABLE_NMI_CTRL
+#define CONF_EIC_ENABLE_NMI_CTRL 0
+#endif
+
+// <q> Non-Maskable Interrupt Filter Enable
+// <i> Indicates whether the mon-maskable interrupt filter is enabled or not
+// <id> eic_arch_nmifilten
+#ifndef CONF_EIC_NMIFILTEN
+#define CONF_EIC_NMIFILTEN 0
+#endif
+
+// <y> Non-Maskable Interrupt Sense
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines non-maskable interrupt sense
+// <id> eic_arch_nmisense
+#ifndef CONF_EIC_NMISENSE
+#define CONF_EIC_NMISENSE EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> Asynchronous Edge Detection Mode
+// <i> Indicates the interrupt detection mode operated synchronously or asynchronousl
+// <id> eic_arch_nmiasynch
+#ifndef CONF_EIC_NMIASYNCH
+#define CONF_EIC_NMIASYNCH 0
+#endif
+// </e>
+
+// <e> Interrupt 0 Settings
+// <id> eic_arch_enable_irq_setting0
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING0
+#define CONF_EIC_ENABLE_IRQ_SETTING0 0
+#endif
+
+// <q> External Interrupt 0 Filter Enable
+// <i> Indicates whether the external interrupt 0 filter is enabled or not
+// <id> eic_arch_filten0
+#ifndef CONF_EIC_FILTEN0
+#define CONF_EIC_FILTEN0 1
+#endif
+
+// <q> External Interrupt 0 Event Output Enable
+// <i> Indicates whether the external interrupt 0 event output is enabled or not
+// <id> eic_arch_extinteo0
+#ifndef CONF_EIC_EXTINTEO0
+#define CONF_EIC_EXTINTEO0 0
+#endif
+
+// <y> Input 0 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense0
+#ifndef CONF_EIC_SENSE0
+#define CONF_EIC_SENSE0 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 0 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 0 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch0
+#ifndef CONF_EIC_ASYNCH0
+#define CONF_EIC_ASYNCH0 0
+#endif
+
+// </e>
+
+// <e> Interrupt 1 Settings
+// <id> eic_arch_enable_irq_setting1
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING1
+#define CONF_EIC_ENABLE_IRQ_SETTING1 0
+#endif
+
+// <q> External Interrupt 1 Filter Enable
+// <i> Indicates whether the external interrupt 1 filter is enabled or not
+// <id> eic_arch_filten1
+#ifndef CONF_EIC_FILTEN1
+#define CONF_EIC_FILTEN1 1
+#endif
+
+// <q> External Interrupt 1 Event Output Enable
+// <i> Indicates whether the external interrupt 1 event output is enabled or not
+// <id> eic_arch_extinteo1
+#ifndef CONF_EIC_EXTINTEO1
+#define CONF_EIC_EXTINTEO1 0
+#endif
+
+// <y> Input 1 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense1
+#ifndef CONF_EIC_SENSE1
+#define CONF_EIC_SENSE1 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 1 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 1 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch1
+#ifndef CONF_EIC_ASYNCH1
+#define CONF_EIC_ASYNCH1 0
+#endif
+
+// </e>
+
+// <e> Interrupt 2 Settings
+// <id> eic_arch_enable_irq_setting2
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING2
+#define CONF_EIC_ENABLE_IRQ_SETTING2 0
+#endif
+
+// <q> External Interrupt 2 Filter Enable
+// <i> Indicates whether the external interrupt 2 filter is enabled or not
+// <id> eic_arch_filten2
+#ifndef CONF_EIC_FILTEN2
+#define CONF_EIC_FILTEN2 1
+#endif
+
+// <q> External Interrupt 2 Event Output Enable
+// <i> Indicates whether the external interrupt 2 event output is enabled or not
+// <id> eic_arch_extinteo2
+#ifndef CONF_EIC_EXTINTEO2
+#define CONF_EIC_EXTINTEO2 0
+#endif
+
+// <y> Input 2 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense2
+#ifndef CONF_EIC_SENSE2
+#define CONF_EIC_SENSE2 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 2 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 2 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch2
+#ifndef CONF_EIC_ASYNCH2
+#define CONF_EIC_ASYNCH2 0
+#endif
+
+// </e>
+
+// <e> Interrupt 3 Settings
+// <id> eic_arch_enable_irq_setting3
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING3
+#define CONF_EIC_ENABLE_IRQ_SETTING3 0
+#endif
+
+// <q> External Interrupt 3 Filter Enable
+// <i> Indicates whether the external interrupt 3 filter is enabled or not
+// <id> eic_arch_filten3
+#ifndef CONF_EIC_FILTEN3
+#define CONF_EIC_FILTEN3 1
+#endif
+
+// <q> External Interrupt 3 Event Output Enable
+// <i> Indicates whether the external interrupt 3 event output is enabled or not
+// <id> eic_arch_extinteo3
+#ifndef CONF_EIC_EXTINTEO3
+#define CONF_EIC_EXTINTEO3 0
+#endif
+
+// <y> Input 3 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense3
+#ifndef CONF_EIC_SENSE3
+#define CONF_EIC_SENSE3 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 3 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 3 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch3
+#ifndef CONF_EIC_ASYNCH3
+#define CONF_EIC_ASYNCH3 0
+#endif
+
+// </e>
+
+// <e> Interrupt 4 Settings
+// <id> eic_arch_enable_irq_setting4
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING4
+#define CONF_EIC_ENABLE_IRQ_SETTING4 0
+#endif
+
+// <q> External Interrupt 4 Filter Enable
+// <i> Indicates whether the external interrupt 4 filter is enabled or not
+// <id> eic_arch_filten4
+#ifndef CONF_EIC_FILTEN4
+#define CONF_EIC_FILTEN4 1
+#endif
+
+// <q> External Interrupt 4 Event Output Enable
+// <i> Indicates whether the external interrupt 4 event output is enabled or not
+// <id> eic_arch_extinteo4
+#ifndef CONF_EIC_EXTINTEO4
+#define CONF_EIC_EXTINTEO4 0
+#endif
+
+// <y> Input 4 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense4
+#ifndef CONF_EIC_SENSE4
+#define CONF_EIC_SENSE4 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 4 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 4 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch4
+#ifndef CONF_EIC_ASYNCH4
+#define CONF_EIC_ASYNCH4 0
+#endif
+
+// </e>
+
+// <e> Interrupt 5 Settings
+// <id> eic_arch_enable_irq_setting5
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING5
+#define CONF_EIC_ENABLE_IRQ_SETTING5 0
+#endif
+
+// <q> External Interrupt 5 Filter Enable
+// <i> Indicates whether the external interrupt 5 filter is enabled or not
+// <id> eic_arch_filten5
+#ifndef CONF_EIC_FILTEN5
+#define CONF_EIC_FILTEN5 1
+#endif
+
+// <q> External Interrupt 5 Event Output Enable
+// <i> Indicates whether the external interrupt 5 event output is enabled or not
+// <id> eic_arch_extinteo5
+#ifndef CONF_EIC_EXTINTEO5
+#define CONF_EIC_EXTINTEO5 0
+#endif
+
+// <y> Input 5 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense5
+#ifndef CONF_EIC_SENSE5
+#define CONF_EIC_SENSE5 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 5 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 5 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch5
+#ifndef CONF_EIC_ASYNCH5
+#define CONF_EIC_ASYNCH5 0
+#endif
+
+// </e>
+
+// <e> Interrupt 6 Settings
+// <id> eic_arch_enable_irq_setting6
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING6
+#define CONF_EIC_ENABLE_IRQ_SETTING6 0
+#endif
+
+// <q> External Interrupt 6 Filter Enable
+// <i> Indicates whether the external interrupt 6 filter is enabled or not
+// <id> eic_arch_filten6
+#ifndef CONF_EIC_FILTEN6
+#define CONF_EIC_FILTEN6 1
+#endif
+
+// <q> External Interrupt 6 Event Output Enable
+// <i> Indicates whether the external interrupt 6 event output is enabled or not
+// <id> eic_arch_extinteo6
+#ifndef CONF_EIC_EXTINTEO6
+#define CONF_EIC_EXTINTEO6 0
+#endif
+
+// <y> Input 6 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense6
+#ifndef CONF_EIC_SENSE6
+#define CONF_EIC_SENSE6 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 6 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 6 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch6
+#ifndef CONF_EIC_ASYNCH6
+#define CONF_EIC_ASYNCH6 0
+#endif
+
+// </e>
+
+// <e> Interrupt 7 Settings
+// <id> eic_arch_enable_irq_setting7
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING7
+#define CONF_EIC_ENABLE_IRQ_SETTING7 0
+#endif
+
+// <q> External Interrupt 7 Filter Enable
+// <i> Indicates whether the external interrupt 7 filter is enabled or not
+// <id> eic_arch_filten7
+#ifndef CONF_EIC_FILTEN7
+#define CONF_EIC_FILTEN7 1
+#endif
+
+// <q> External Interrupt 7 Event Output Enable
+// <i> Indicates whether the external interrupt 7 event output is enabled or not
+// <id> eic_arch_extinteo7
+#ifndef CONF_EIC_EXTINTEO7
+#define CONF_EIC_EXTINTEO7 0
+#endif
+
+// <y> Input 7 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense7
+#ifndef CONF_EIC_SENSE7
+#define CONF_EIC_SENSE7 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 7 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 7 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch7
+#ifndef CONF_EIC_ASYNCH7
+#define CONF_EIC_ASYNCH7 0
+#endif
+
+// </e>
+
+// <e> Interrupt 8 Settings
+// <id> eic_arch_enable_irq_setting8
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING8
+#define CONF_EIC_ENABLE_IRQ_SETTING8 0
+#endif
+
+// <q> External Interrupt 8 Filter Enable
+// <i> Indicates whether the external interrupt 8 filter is enabled or not
+// <id> eic_arch_filten8
+#ifndef CONF_EIC_FILTEN8
+#define CONF_EIC_FILTEN8 0
+#endif
+
+// <q> External Interrupt 8 Event Output Enable
+// <i> Indicates whether the external interrupt 8 event output is enabled or not
+// <id> eic_arch_extinteo8
+#ifndef CONF_EIC_EXTINTEO8
+#define CONF_EIC_EXTINTEO8 0
+#endif
+
+// <y> Input 8 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense8
+#ifndef CONF_EIC_SENSE8
+#define CONF_EIC_SENSE8 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 8 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 8 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch8
+#ifndef CONF_EIC_ASYNCH8
+#define CONF_EIC_ASYNCH8 0
+#endif
+
+// </e>
+
+// <e> Interrupt 9 Settings
+// <id> eic_arch_enable_irq_setting9
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING9
+#define CONF_EIC_ENABLE_IRQ_SETTING9 0
+#endif
+
+// <q> External Interrupt 9 Filter Enable
+// <i> Indicates whether the external interrupt 9 filter is enabled or not
+// <id> eic_arch_filten9
+#ifndef CONF_EIC_FILTEN9
+#define CONF_EIC_FILTEN9 0
+#endif
+
+// <q> External Interrupt 9 Event Output Enable
+// <i> Indicates whether the external interrupt 9 event output is enabled or not
+// <id> eic_arch_extinteo9
+#ifndef CONF_EIC_EXTINTEO9
+#define CONF_EIC_EXTINTEO9 0
+#endif
+
+// <y> Input 9 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense9
+#ifndef CONF_EIC_SENSE9
+#define CONF_EIC_SENSE9 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 9 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 9 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch9
+#ifndef CONF_EIC_ASYNCH9
+#define CONF_EIC_ASYNCH9 0
+#endif
+
+// </e>
+
+// <e> Interrupt 10 Settings
+// <id> eic_arch_enable_irq_setting10
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING10
+#define CONF_EIC_ENABLE_IRQ_SETTING10 0
+#endif
+
+// <q> External Interrupt 10 Filter Enable
+// <i> Indicates whether the external interrupt 10 filter is enabled or not
+// <id> eic_arch_filten10
+#ifndef CONF_EIC_FILTEN10
+#define CONF_EIC_FILTEN10 0
+#endif
+
+// <q> External Interrupt 10 Event Output Enable
+// <i> Indicates whether the external interrupt 10 event output is enabled or not
+// <id> eic_arch_extinteo10
+#ifndef CONF_EIC_EXTINTEO10
+#define CONF_EIC_EXTINTEO10 0
+#endif
+
+// <y> Input 10 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense10
+#ifndef CONF_EIC_SENSE10
+#define CONF_EIC_SENSE10 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 10 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 10 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch10
+#ifndef CONF_EIC_ASYNCH10
+#define CONF_EIC_ASYNCH10 0
+#endif
+
+// </e>
+
+// <e> Interrupt 11 Settings
+// <id> eic_arch_enable_irq_setting11
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING11
+#define CONF_EIC_ENABLE_IRQ_SETTING11 0
+#endif
+
+// <q> External Interrupt 11 Filter Enable
+// <i> Indicates whether the external interrupt 11 filter is enabled or not
+// <id> eic_arch_filten11
+#ifndef CONF_EIC_FILTEN11
+#define CONF_EIC_FILTEN11 0
+#endif
+
+// <q> External Interrupt 11 Event Output Enable
+// <i> Indicates whether the external interrupt 11 event output is enabled or not
+// <id> eic_arch_extinteo11
+#ifndef CONF_EIC_EXTINTEO11
+#define CONF_EIC_EXTINTEO11 0
+#endif
+
+// <y> Input 11 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense11
+#ifndef CONF_EIC_SENSE11
+#define CONF_EIC_SENSE11 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 11 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 11 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch11
+#ifndef CONF_EIC_ASYNCH11
+#define CONF_EIC_ASYNCH11 0
+#endif
+
+// </e>
+
+// <e> Interrupt 12 Settings
+// <id> eic_arch_enable_irq_setting12
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING12
+#define CONF_EIC_ENABLE_IRQ_SETTING12 0
+#endif
+
+// <q> External Interrupt 12 Filter Enable
+// <i> Indicates whether the external interrupt 12 filter is enabled or not
+// <id> eic_arch_filten12
+#ifndef CONF_EIC_FILTEN12
+#define CONF_EIC_FILTEN12 0
+#endif
+
+// <q> External Interrupt 12 Event Output Enable
+// <i> Indicates whether the external interrupt 12 event output is enabled or not
+// <id> eic_arch_extinteo12
+#ifndef CONF_EIC_EXTINTEO12
+#define CONF_EIC_EXTINTEO12 0
+#endif
+
+// <y> Input 12 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense12
+#ifndef CONF_EIC_SENSE12
+#define CONF_EIC_SENSE12 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 12 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 12 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch12
+#ifndef CONF_EIC_ASYNCH12
+#define CONF_EIC_ASYNCH12 0
+#endif
+
+// </e>
+
+// <e> Interrupt 13 Settings
+// <id> eic_arch_enable_irq_setting13
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING13
+#define CONF_EIC_ENABLE_IRQ_SETTING13 0
+#endif
+
+// <q> External Interrupt 13 Filter Enable
+// <i> Indicates whether the external interrupt 13 filter is enabled or not
+// <id> eic_arch_filten13
+#ifndef CONF_EIC_FILTEN13
+#define CONF_EIC_FILTEN13 0
+#endif
+
+// <q> External Interrupt 13 Event Output Enable
+// <i> Indicates whether the external interrupt 13 event output is enabled or not
+// <id> eic_arch_extinteo13
+#ifndef CONF_EIC_EXTINTEO13
+#define CONF_EIC_EXTINTEO13 0
+#endif
+
+// <y> Input 13 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense13
+#ifndef CONF_EIC_SENSE13
+#define CONF_EIC_SENSE13 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 13 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 13 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch13
+#ifndef CONF_EIC_ASYNCH13
+#define CONF_EIC_ASYNCH13 0
+#endif
+
+// </e>
+
+// <e> Interrupt 14 Settings
+// <id> eic_arch_enable_irq_setting14
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING14
+#define CONF_EIC_ENABLE_IRQ_SETTING14 0
+#endif
+
+// <q> External Interrupt 14 Filter Enable
+// <i> Indicates whether the external interrupt 14 filter is enabled or not
+// <id> eic_arch_filten14
+#ifndef CONF_EIC_FILTEN14
+#define CONF_EIC_FILTEN14 0
+#endif
+
+// <q> External Interrupt 14 Event Output Enable
+// <i> Indicates whether the external interrupt 14 event output is enabled or not
+// <id> eic_arch_extinteo14
+#ifndef CONF_EIC_EXTINTEO14
+#define CONF_EIC_EXTINTEO14 0
+#endif
+
+// <y> Input 14 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense14
+#ifndef CONF_EIC_SENSE14
+#define CONF_EIC_SENSE14 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 14 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 14 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch14
+#ifndef CONF_EIC_ASYNCH14
+#define CONF_EIC_ASYNCH14 0
+#endif
+
+// </e>
+
+// <e> Interrupt 15 Settings
+// <id> eic_arch_enable_irq_setting15
+#ifndef CONF_EIC_ENABLE_IRQ_SETTING15
+#define CONF_EIC_ENABLE_IRQ_SETTING15 0
+#endif
+
+// <q> External Interrupt 15 Filter Enable
+// <i> Indicates whether the external interrupt 15 filter is enabled or not
+// <id> eic_arch_filten15
+#ifndef CONF_EIC_FILTEN15
+#define CONF_EIC_FILTEN15 0
+#endif
+
+// <q> External Interrupt 15 Event Output Enable
+// <i> Indicates whether the external interrupt 15 event output is enabled or not
+// <id> eic_arch_extinteo15
+#ifndef CONF_EIC_EXTINTEO15
+#define CONF_EIC_EXTINTEO15 0
+#endif
+
+// <y> Input 15 Sense Configuration
+// <EIC_NMICTRL_NMISENSE_NONE_Val"> No detection
+// <EIC_NMICTRL_NMISENSE_RISE_Val"> Rising-edge detection
+// <EIC_NMICTRL_NMISENSE_FALL_Val"> Falling-edge detection
+// <EIC_NMICTRL_NMISENSE_BOTH_Val"> Both-edges detection
+// <EIC_NMICTRL_NMISENSE_HIGH_Val"> High-level detection
+// <EIC_NMICTRL_NMISENSE_LOW_Val"> Low-level detection
+// <i> This defines input sense trigger
+// <id> eic_arch_sense15
+#ifndef CONF_EIC_SENSE15
+#define CONF_EIC_SENSE15 EIC_NMICTRL_NMISENSE_NONE_Val
+#endif
+
+// <q> External Interrupt 15 Asynchronous Edge Detection Mode
+// <i> Indicates the external interrupt 15 detection mode operated synchronously or asynchronousl
+// <id> eic_arch_asynch15
+#ifndef CONF_EIC_ASYNCH15
+#define CONF_EIC_ASYNCH15 0
+#endif
+
+// </e>
+
+// this is still a hack: if the user wants to use PA02 (alarm button) as an RTC interrupt pin and PB02 (9-pin A2) on the EIC, we don't support that.
+// TODO item: refactor out our reliance on the ASF external interrupt driver. - joey 11/30
+#ifdef CRYSTALLESS
+#define CONFIG_EIC_EXTINT_MAP {0, PIN_PB00}, {1, PIN_PB01}, {2, PIN_PA02}, {3, PIN_PB03}, {5, PIN_PB05}, {7, PIN_PA07},
+#else
+#define CONFIG_EIC_EXTINT_MAP {0, PIN_PB00}, {1, PIN_PB01}, {2, PIN_PA02}, {3, PIN_PB03}, {6, PIN_PA22}, {7, PIN_PA23},
+#endif
+
+// <<< end of configuration section >>>
+
+#endif // HPL_EIC_CONFIG_H
diff --git a/watch-library/shared/config/hpl_gclk_config.h b/watch-library/shared/config/hpl_gclk_config.h
new file mode 100644
index 00000000..ee7aace3
--- /dev/null
+++ b/watch-library/shared/config/hpl_gclk_config.h
@@ -0,0 +1,388 @@
+/* Auto-generated config file hpl_gclk_config.h */
+#ifndef HPL_GCLK_CONFIG_H
+#define HPL_GCLK_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <e> Generic clock generator 0 configuration
+// <i> Indicates whether generic clock 0 configuration is enabled or not
+// <id> enable_gclk_gen_0
+#ifndef CONF_GCLK_GENERATOR_0_CONFIG
+#define CONF_GCLK_GENERATOR_0_CONFIG 1
+#endif
+
+// <h> Generic Clock Generator Control
+// <y> Generic clock generator 0 source
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_GENCTRL_SRC_GCLKIN"> Generic clock generator input pad
+// <GCLK_GENCTRL_SRC_GCLKGEN1"> Generic clock generator 1
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_OSC16M"> 16MHz Internal Oscillator (OSC16M)
+// <GCLK_GENCTRL_SRC_DFLL48M"> Digital Frequency Locked Loop (DFLL48M)
+// <GCLK_GENCTRL_SRC_DPLL96M"> Fractional Digital Phase Locked Loop (FDPLL96M)
+// <i> This defines the clock source for generic clock generator 0
+// <id> gclk_gen_0_oscillator
+#ifndef CONF_GCLK_GEN_0_SOURCE
+#define CONF_GCLK_GEN_0_SOURCE GCLK_GENCTRL_SRC_OSC16M
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> gclk_arch_gen_0_runstdby
+#ifndef CONF_GCLK_GEN_0_RUNSTDBY
+#define CONF_GCLK_GEN_0_RUNSTDBY 0
+#endif
+
+// <q> Divide Selection
+// <i> Indicates whether Divide Selection is enabled or not
+//<id> gclk_gen_0_div_sel
+#ifndef CONF_GCLK_GEN_0_DIVSEL
+#define CONF_GCLK_GEN_0_DIVSEL 0
+#endif
+
+// <q> Output Enable
+// <i> Indicates whether Output Enable is enabled or not
+// <id> gclk_arch_gen_0_oe
+#ifndef CONF_GCLK_GEN_0_OE
+#define CONF_GCLK_GEN_0_OE 0
+#endif
+
+// <q> Output Off Value
+// <i> Indicates whether Output Off Value is enabled or not
+// <id> gclk_arch_gen_0_oov
+#ifndef CONF_GCLK_GEN_0_OOV
+#define CONF_GCLK_GEN_0_OOV 0
+#endif
+
+// <q> Improve Duty Cycle
+// <i> Indicates whether Improve Duty Cycle is enabled or not
+// <id> gclk_arch_gen_0_idc
+#ifndef CONF_GCLK_GEN_0_IDC
+#define CONF_GCLK_GEN_0_IDC 0
+#endif
+
+// <q> Generic Clock Generator Enable
+// <i> Indicates whether Generic Clock Generator Enable is enabled or not
+// <id> gclk_arch_gen_0_enable
+#ifndef CONF_GCLK_GEN_0_GENEN
+#define CONF_GCLK_GEN_0_GENEN 1
+#endif
+// </h>
+
+//<h> Generic Clock Generator Division
+//<o> Generic clock generator 0 division <0x0000-0xFFFF>
+// <id> gclk_gen_0_div
+#ifndef CONF_GCLK_GEN_0_DIV
+#define CONF_GCLK_GEN_0_DIV 1
+#endif
+// </h>
+// </e>
+
+// <e> Generic clock generator 1 configuration
+// <i> Indicates whether generic clock 1 configuration is enabled or not
+// <id> enable_gclk_gen_1
+#ifndef CONF_GCLK_GENERATOR_1_CONFIG
+#define CONF_GCLK_GENERATOR_1_CONFIG 0
+#endif
+
+// <h> Generic Clock Generator Control
+// <y> Generic clock generator 1 source
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_GENCTRL_SRC_GCLKIN"> Generic clock generator input pad
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_OSC16M"> 16MHz Internal Oscillator (OSC16M)
+// <GCLK_GENCTRL_SRC_DFLL48M"> Digital Frequency Locked Loop (DFLL48M)
+// <GCLK_GENCTRL_SRC_DPLL96M"> Fractional Digital Phase Locked Loop (FDPLL96M)
+// <i> This defines the clock source for generic clock generator 1
+// <id> gclk_gen_1_oscillator
+#ifndef CONF_GCLK_GEN_1_SOURCE
+#define CONF_GCLK_GEN_1_SOURCE GCLK_GENCTRL_SRC_XOSC
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> gclk_arch_gen_1_runstdby
+#ifndef CONF_GCLK_GEN_1_RUNSTDBY
+#define CONF_GCLK_GEN_1_RUNSTDBY 0
+#endif
+
+// <q> Divide Selection
+// <i> Indicates whether Divide Selection is enabled or not
+//<id> gclk_gen_1_div_sel
+#ifndef CONF_GCLK_GEN_1_DIVSEL
+#define CONF_GCLK_GEN_1_DIVSEL 0
+#endif
+
+// <q> Output Enable
+// <i> Indicates whether Output Enable is enabled or not
+// <id> gclk_arch_gen_1_oe
+#ifndef CONF_GCLK_GEN_1_OE
+#define CONF_GCLK_GEN_1_OE 0
+#endif
+
+// <q> Output Off Value
+// <i> Indicates whether Output Off Value is enabled or not
+// <id> gclk_arch_gen_1_oov
+#ifndef CONF_GCLK_GEN_1_OOV
+#define CONF_GCLK_GEN_1_OOV 0
+#endif
+
+// <q> Improve Duty Cycle
+// <i> Indicates whether Improve Duty Cycle is enabled or not
+// <id> gclk_arch_gen_1_idc
+#ifndef CONF_GCLK_GEN_1_IDC
+#define CONF_GCLK_GEN_1_IDC 0
+#endif
+
+// <q> Generic Clock Generator Enable
+// <i> Indicates whether Generic Clock Generator Enable is enabled or not
+// <id> gclk_arch_gen_1_enable
+#ifndef CONF_GCLK_GEN_1_GENEN
+#define CONF_GCLK_GEN_1_GENEN 0
+#endif
+// </h>
+
+//<h> Generic Clock Generator Division
+//<o> Generic clock generator 1 division <0x0000-0xFFFF>
+// <id> gclk_gen_1_div
+#ifndef CONF_GCLK_GEN_1_DIV
+#define CONF_GCLK_GEN_1_DIV 1
+#endif
+// </h>
+// </e>
+
+// <e> Generic clock generator 2 configuration
+// <i> Indicates whether generic clock 2 configuration is enabled or not
+// <id> enable_gclk_gen_2
+#ifndef CONF_GCLK_GENERATOR_2_CONFIG
+#define CONF_GCLK_GENERATOR_2_CONFIG 0
+#endif
+
+// <h> Generic Clock Generator Control
+// <y> Generic clock generator 2 source
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_GENCTRL_SRC_GCLKIN"> Generic clock generator input pad
+// <GCLK_GENCTRL_SRC_GCLKGEN1"> Generic clock generator 1
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_OSC16M"> 16MHz Internal Oscillator (OSC16M)
+// <GCLK_GENCTRL_SRC_DFLL48M"> Digital Frequency Locked Loop (DFLL48M)
+// <GCLK_GENCTRL_SRC_DPLL96M"> Fractional Digital Phase Locked Loop (FDPLL96M)
+// <i> This defines the clock source for generic clock generator 2
+// <id> gclk_gen_2_oscillator
+#ifndef CONF_GCLK_GEN_2_SOURCE
+#define CONF_GCLK_GEN_2_SOURCE GCLK_GENCTRL_SRC_XOSC
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> gclk_arch_gen_2_runstdby
+#ifndef CONF_GCLK_GEN_2_RUNSTDBY
+#define CONF_GCLK_GEN_2_RUNSTDBY 0
+#endif
+
+// <q> Divide Selection
+// <i> Indicates whether Divide Selection is enabled or not
+//<id> gclk_gen_2_div_sel
+#ifndef CONF_GCLK_GEN_2_DIVSEL
+#define CONF_GCLK_GEN_2_DIVSEL 0
+#endif
+
+// <q> Output Enable
+// <i> Indicates whether Output Enable is enabled or not
+// <id> gclk_arch_gen_2_oe
+#ifndef CONF_GCLK_GEN_2_OE
+#define CONF_GCLK_GEN_2_OE 0
+#endif
+
+// <q> Output Off Value
+// <i> Indicates whether Output Off Value is enabled or not
+// <id> gclk_arch_gen_2_oov
+#ifndef CONF_GCLK_GEN_2_OOV
+#define CONF_GCLK_GEN_2_OOV 0
+#endif
+
+// <q> Improve Duty Cycle
+// <i> Indicates whether Improve Duty Cycle is enabled or not
+// <id> gclk_arch_gen_2_idc
+#ifndef CONF_GCLK_GEN_2_IDC
+#define CONF_GCLK_GEN_2_IDC 0
+#endif
+
+// <q> Generic Clock Generator Enable
+// <i> Indicates whether Generic Clock Generator Enable is enabled or not
+// <id> gclk_arch_gen_2_enable
+#ifndef CONF_GCLK_GEN_2_GENEN
+#define CONF_GCLK_GEN_2_GENEN 0
+#endif
+// </h>
+
+//<h> Generic Clock Generator Division
+//<o> Generic clock generator 2 division <0x0000-0xFFFF>
+// <id> gclk_gen_2_div
+#ifndef CONF_GCLK_GEN_2_DIV
+#define CONF_GCLK_GEN_2_DIV 1
+#endif
+// </h>
+// </e>
+
+// <e> Generic clock generator 3 configuration
+// <i> Indicates whether generic clock 3 configuration is enabled or not
+// <id> enable_gclk_gen_3
+#ifndef CONF_GCLK_GENERATOR_3_CONFIG
+#define CONF_GCLK_GENERATOR_3_CONFIG 1
+#endif
+
+// <h> Generic Clock Generator Control
+// <y> Generic clock generator 3 source
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_GENCTRL_SRC_GCLKIN"> Generic clock generator input pad
+// <GCLK_GENCTRL_SRC_GCLKGEN1"> Generic clock generator 1
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_OSC16M"> 16MHz Internal Oscillator (OSC16M)
+// <GCLK_GENCTRL_SRC_DFLL48M"> Digital Frequency Locked Loop (DFLL48M)
+// <GCLK_GENCTRL_SRC_DPLL96M"> Fractional Digital Phase Locked Loop (FDPLL96M)
+// <i> This defines the clock source for generic clock generator 3
+// <id> gclk_gen_3_oscillator
+#ifndef CONF_GCLK_GEN_3_SOURCE
+#ifdef CRYSTALLESS
+#define CONF_GCLK_GEN_3_SOURCE GCLK_GENCTRL_SRC_OSCULP32K
+#else
+#define CONF_GCLK_GEN_3_SOURCE GCLK_GENCTRL_SRC_XOSC32K
+#endif
+
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> gclk_arch_gen_3_runstdby
+#ifndef CONF_GCLK_GEN_3_RUNSTDBY
+#define CONF_GCLK_GEN_3_RUNSTDBY 1
+#endif
+
+// <q> Divide Selection
+// <i> Indicates whether Divide Selection is enabled or not
+//<id> gclk_gen_3_div_sel
+#ifndef CONF_GCLK_GEN_3_DIVSEL
+#define CONF_GCLK_GEN_3_DIVSEL 0
+#endif
+
+// <q> Output Enable
+// <i> Indicates whether Output Enable is enabled or not
+// <id> gclk_arch_gen_3_oe
+#ifndef CONF_GCLK_GEN_3_OE
+#define CONF_GCLK_GEN_3_OE 0
+#endif
+
+// <q> Output Off Value
+// <i> Indicates whether Output Off Value is enabled or not
+// <id> gclk_arch_gen_3_oov
+#ifndef CONF_GCLK_GEN_3_OOV
+#define CONF_GCLK_GEN_3_OOV 0
+#endif
+
+// <q> Improve Duty Cycle
+// <i> Indicates whether Improve Duty Cycle is enabled or not
+// <id> gclk_arch_gen_3_idc
+#ifndef CONF_GCLK_GEN_3_IDC
+#define CONF_GCLK_GEN_3_IDC 1
+#endif
+
+// <q> Generic Clock Generator Enable
+// <i> Indicates whether Generic Clock Generator Enable is enabled or not
+// <id> gclk_arch_gen_3_enable
+#ifndef CONF_GCLK_GEN_3_GENEN
+#define CONF_GCLK_GEN_3_GENEN 1
+#endif
+// </h>
+
+//<h> Generic Clock Generator Division
+//<o> Generic clock generator 3 division <0x0000-0xFFFF>
+// <id> gclk_gen_3_div
+#ifndef CONF_GCLK_GEN_3_DIV
+#define CONF_GCLK_GEN_3_DIV 1
+#endif
+// </h>
+// </e>
+
+// <e> Generic clock generator 4 configuration
+// <i> Indicates whether generic clock 4 configuration is enabled or not
+// <id> enable_gclk_gen_4
+#ifndef CONF_GCLK_GENERATOR_4_CONFIG
+#define CONF_GCLK_GENERATOR_4_CONFIG 0
+#endif
+
+// <h> Generic Clock Generator Control
+// <y> Generic clock generator 4 source
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_GENCTRL_SRC_GCLKIN"> Generic clock generator input pad
+// <GCLK_GENCTRL_SRC_GCLKGEN1"> Generic clock generator 1
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_OSC16M"> 16MHz Internal Oscillator (OSC16M)
+// <GCLK_GENCTRL_SRC_DFLL48M"> Digital Frequency Locked Loop (DFLL48M)
+// <GCLK_GENCTRL_SRC_DPLL96M"> Fractional Digital Phase Locked Loop (FDPLL96M)
+// <i> This defines the clock source for generic clock generator 4
+// <id> gclk_gen_4_oscillator
+#ifndef CONF_GCLK_GEN_4_SOURCE
+#define CONF_GCLK_GEN_4_SOURCE GCLK_GENCTRL_SRC_XOSC
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> gclk_arch_gen_4_runstdby
+#ifndef CONF_GCLK_GEN_4_RUNSTDBY
+#define CONF_GCLK_GEN_4_RUNSTDBY 0
+#endif
+
+// <q> Divide Selection
+// <i> Indicates whether Divide Selection is enabled or not
+//<id> gclk_gen_4_div_sel
+#ifndef CONF_GCLK_GEN_4_DIVSEL
+#define CONF_GCLK_GEN_4_DIVSEL 0
+#endif
+
+// <q> Output Enable
+// <i> Indicates whether Output Enable is enabled or not
+// <id> gclk_arch_gen_4_oe
+#ifndef CONF_GCLK_GEN_4_OE
+#define CONF_GCLK_GEN_4_OE 0
+#endif
+
+// <q> Output Off Value
+// <i> Indicates whether Output Off Value is enabled or not
+// <id> gclk_arch_gen_4_oov
+#ifndef CONF_GCLK_GEN_4_OOV
+#define CONF_GCLK_GEN_4_OOV 0
+#endif
+
+// <q> Improve Duty Cycle
+// <i> Indicates whether Improve Duty Cycle is enabled or not
+// <id> gclk_arch_gen_4_idc
+#ifndef CONF_GCLK_GEN_4_IDC
+#define CONF_GCLK_GEN_4_IDC 0
+#endif
+
+// <q> Generic Clock Generator Enable
+// <i> Indicates whether Generic Clock Generator Enable is enabled or not
+// <id> gclk_arch_gen_4_enable
+#ifndef CONF_GCLK_GEN_4_GENEN
+#define CONF_GCLK_GEN_4_GENEN 0
+#endif
+// </h>
+
+//<h> Generic Clock Generator Division
+//<o> Generic clock generator 4 division <0x0000-0xFFFF>
+// <id> gclk_gen_4_div
+#ifndef CONF_GCLK_GEN_4_DIV
+#define CONF_GCLK_GEN_4_DIV 1
+#endif
+// </h>
+// </e>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_GCLK_CONFIG_H
diff --git a/watch-library/shared/config/hpl_mclk_config.h b/watch-library/shared/config/hpl_mclk_config.h
new file mode 100644
index 00000000..3358edcf
--- /dev/null
+++ b/watch-library/shared/config/hpl_mclk_config.h
@@ -0,0 +1,85 @@
+/* Auto-generated config file hpl_mclk_config.h */
+#ifndef HPL_MCLK_CONFIG_H
+#define HPL_MCLK_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+#include <peripheral_clk_config.h>
+
+// <e> System Configuration
+// <i> Indicates whether configuration for system is enabled or not
+// <id> enable_cpu_clock
+#ifndef CONF_SYSTEM_CONFIG
+#define CONF_SYSTEM_CONFIG 1
+#endif
+
+// <h> Basic settings
+// <y> CPU Clock source
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+// <i> This defines the clock source for the CPU
+// <id> cpu_clock_source
+#ifndef CONF_CPU_SRC
+#define CONF_CPU_SRC GCLK_PCHCTRL_GEN_GCLK0_Val
+#endif
+
+// <y> CPU Clock Division Factor
+// <MCLK_CPUDIV_CPUDIV_DIV1_Val"> 1
+// <MCLK_CPUDIV_CPUDIV_DIV2_Val"> 2
+// <MCLK_CPUDIV_CPUDIV_DIV4_Val"> 4
+// <MCLK_CPUDIV_CPUDIV_DIV8_Val"> 8
+// <MCLK_CPUDIV_CPUDIV_DIV16_Val"> 16
+// <MCLK_CPUDIV_CPUDIV_DIV32_Val"> 32
+// <MCLK_CPUDIV_CPUDIV_DIV64_Val"> 64
+// <MCLK_CPUDIV_CPUDIV_DIV128_Val"> 128
+// <i> Prescalar for CPU clock
+// <id> cpu_div
+#ifndef CONF_MCLK_CPUDIV
+#define CONF_MCLK_CPUDIV MCLK_CPUDIV_CPUDIV_DIV1_Val
+#endif
+
+// <y> Backup Clock Division
+// <MCLK_BUPDIV_BUPDIV_DIV1_Val"> Divide by 1
+// <MCLK_BUPDIV_BUPDIV_DIV2_Val"> Divide by 2
+// <MCLK_BUPDIV_BUPDIV_DIV4_Val"> Divide by 4
+// <MCLK_BUPDIV_BUPDIV_DIV8_Val"> Divide by 8
+// <MCLK_BUPDIV_BUPDIV_DIV16_Val"> Divide by 16
+// <MCLK_BUPDIV_BUPDIV_DIV32_Val"> Divide by 32
+// <MCLK_BUPDIV_BUPDIV_DIV64_Val"> Divide by 64
+// <MCLK_BUPDIV_BUPDIV_DIV128_Val"> Divide by 128
+// <id> mclk_arch_bupdiv
+#ifndef CONF_MCLK_BUPDIV
+#define CONF_MCLK_BUPDIV MCLK_BUPDIV_BUPDIV_DIV1_Val
+#endif
+// </h>
+
+// <h> NVM Settings
+// <o> NVM Wait States
+// <i> These bits select the number of wait states for a read operation.
+// <0=> 0
+// <1=> 1
+// <2=> 2
+// <3=> 3
+// <4=> 4
+// <5=> 5
+// <6=> 6
+// <7=> 7
+// <8=> 8
+// <9=> 9
+// <10=> 10
+// <11=> 11
+// <12=> 12
+// <13=> 13
+// <14=> 14
+// <15=> 15
+// <id> nvm_wait_states
+#ifndef CONF_NVM_WAIT_STATE
+#define CONF_NVM_WAIT_STATE 0
+#endif
+
+// </h>
+
+// </e>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_MCLK_CONFIG_H
diff --git a/watch-library/shared/config/hpl_nvmctrl_config.h b/watch-library/shared/config/hpl_nvmctrl_config.h
new file mode 100755
index 00000000..76d49bac
--- /dev/null
+++ b/watch-library/shared/config/hpl_nvmctrl_config.h
@@ -0,0 +1,38 @@
+/* Auto-generated config file hpl_nvmctrl_config.h */
+#ifndef HPL_NVMCTRL_CONFIG_H
+#define HPL_NVMCTRL_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <h> Basic Settings
+
+// <o> Read Mode Selection
+// <0x00=> No Miss Penalty
+// <0x01=> Low Power
+// <0x02=> Deterministic
+// <id> nvm_arch_read_mode
+#ifndef CONF_NVM_READ_MODE
+#define CONF_NVM_READ_MODE 1
+#endif
+
+// <o> Power Reduction Mode During Sleep
+// <0x00=> Wake On Access
+// <0x01=> Wake Up Instant
+// <0x03=> Disabled
+// <id> nvm_arch_sleepprm
+#ifndef CONF_NVM_SLEEPPRM
+#define CONF_NVM_SLEEPPRM 0
+#endif
+
+// <q> Cache Disable
+// <i> Indicate whether cache is disable or not
+// <id> nvm_arch_cache
+#ifndef CONF_NVM_CACHE
+#define CONF_NVM_CACHE 0
+#endif
+
+// </h>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_NVMCTRL_CONFIG_H
diff --git a/watch-library/shared/config/hpl_osc32kctrl_config.h b/watch-library/shared/config/hpl_osc32kctrl_config.h
new file mode 100644
index 00000000..540f1c60
--- /dev/null
+++ b/watch-library/shared/config/hpl_osc32kctrl_config.h
@@ -0,0 +1,177 @@
+/* Auto-generated config file hpl_osc32kctrl_config.h */
+#ifndef HPL_OSC32KCTRL_CONFIG_H
+#define HPL_OSC32KCTRL_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <e> RTC Source configuration
+// <id> enable_rtc_source
+#ifndef CONF_RTCCTRL_CONFIG
+#define CONF_RTCCTRL_CONFIG 0
+#endif
+
+// <h> RTC source control
+// <y> RTC Clock Source Selection
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <i> This defines the clock source for RTC
+// <id> rtc_source_oscillator
+#ifndef CONF_RTCCTRL_SRC
+#ifdef CRYSTALLESS
+#define CONF_RTCCTRL_SRC GCLK_GENCTRL_SRC_OSCULP32K
+#else
+#define CONF_RTCCTRL_SRC GCLK_GENCTRL_SRC_XOSC32K
+#endif
+#endif
+
+// <q> Use 1 kHz output
+// <id> rtc_1khz_selection
+#ifndef CONF_RTCCTRL_1KHZ
+
+#define CONF_RTCCTRL_1KHZ 1
+
+#endif
+
+#if CONF_RTCCTRL_SRC == GCLK_GENCTRL_SRC_OSCULP32K
+#define CONF_RTCCTRL (CONF_RTCCTRL_1KHZ ? OSC32KCTRL_RTCCTRL_RTCSEL_ULP1K_Val : OSC32KCTRL_RTCCTRL_RTCSEL_ULP32K_Val)
+#elif CONF_RTCCTRL_SRC == GCLK_GENCTRL_SRC_XOSC32K
+#define CONF_RTCCTRL (CONF_RTCCTRL_1KHZ ? OSC32KCTRL_RTCCTRL_RTCSEL_XOSC1K_Val : OSC32KCTRL_RTCCTRL_RTCSEL_XOSC32K_Val)
+#else
+#error unexpected CONF_RTCCTRL_SRC
+#endif
+
+// </h>
+// </e>
+// <e> SLCD Source configuration
+// <id> enable_slcd_source
+#ifndef CONF_SLCDCTRL_CONFIG
+#define CONF_SLCDCTRL_CONFIG 0
+#endif
+
+// <h> SLCD source control
+// <y> SLCD Clock Source Selection
+// <GCLK_GENCTRL_SRC_OSCULP32K"> 32kHz Ultra Low Power Internal Oscillator (OSCULP32K)
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <i> This defines the clock source for SLCD
+// <id> slcd_source_oscillator
+#ifndef CONF_SLCDCTRL_SRC
+#define CONF_SLCDCTRL_SRC GCLK_GENCTRL_SRC_XOSC32K
+#endif
+
+// </h>
+// </e>
+// <e> 32kHz External Crystal Oscillator Configuration
+// <i> Indicates whether configuration for External 32K Osc is enabled or not
+// <id> enable_xosc32k
+#ifndef CONF_XOSC32K_CONFIG
+#define CONF_XOSC32K_CONFIG 1
+#endif
+
+// <h> 32kHz External Crystal Oscillator Control
+// <q> Oscillator enable
+// <i> Indicates whether 32kHz External Crystal Oscillator is enabled or not
+// <id> xosc32k_arch_enable
+#ifndef CONF_XOSC32K_ENABLE
+#define CONF_XOSC32K_ENABLE 1
+#endif
+
+// <o> Start-Up Time
+// <0x0=>62592us
+// <0x1=>125092us
+// <0x2=>500092us
+// <0x3=>1000092us
+// <0x4=>2000092us
+// <0x5=>4000092us
+// <0x6=>8000092us
+// <id> xosc32k_arch_startup
+#ifndef CONF_XOSC32K_STARTUP
+#define CONF_XOSC32K_STARTUP 0x3
+#endif
+
+// <q> On Demand Control
+// <i> Indicates whether On Demand Control is enabled or not
+// <id> xosc32k_arch_ondemand
+#ifndef CONF_XOSC32K_ONDEMAND
+#define CONF_XOSC32K_ONDEMAND 0
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> xosc32k_arch_runstdby
+#ifndef CONF_XOSC32K_RUNSTDBY
+#define CONF_XOSC32K_RUNSTDBY 1
+#endif
+
+// <q> 1kHz Output Enable
+// <i> Indicates whether 1kHz Output is enabled or not
+// <id> xosc32k_arch_en1k
+#ifndef CONF_XOSC32K_EN1K
+#define CONF_XOSC32K_EN1K 1
+#endif
+
+// <q> 32kHz Output Enable
+// <i> Indicates whether 32kHz Output is enabled or not
+// <id> xosc32k_arch_en32k
+#ifndef CONF_XOSC32K_EN32K
+#define CONF_XOSC32K_EN32K 1
+#endif
+
+// <q> Clock Switch Back
+// <i> Indicates whether Clock Switch Back is enabled or not
+// <id> xosc32k_arch_swben
+#ifndef CONF_XOSC32K_SWBEN
+#define CONF_XOSC32K_SWBEN 0
+#endif
+
+// <q> Clock Failure Detector
+// <i> Indicates whether Clock Failure Detector is enabled or not
+// <id> xosc32k_arch_cfden
+#ifndef CONF_XOSC32K_CFDEN
+#define CONF_XOSC32K_CFDEN 0
+#endif
+
+// <q> Clock Failure Detector Event Out
+// <i> Indicates whether Clock Failure Detector Event Out is enabled or not
+// <id> xosc32k_arch_cfdeo
+#ifndef CONF_XOSC32K_CFDEO
+#define CONF_XOSC32K_CFDEO 0
+#endif
+
+// <q> Crystal connected to XIN32/XOUT32 Enable
+// <i> Indicates whether the connections between the I/O pads and the external clock or crystal oscillator is enabled or not
+// <id> xosc32k_arch_xtalen
+#ifndef CONF_XOSC32K_XTALEN
+#define CONF_XOSC32K_XTALEN 1
+#endif
+
+// </h>
+// </e>
+
+// <e> 32kHz Ultra Low Power Internal Oscillator Configuration
+// <i> Indicates whether configuration for OSCULP32K is enabled or not
+// <id> enable_osculp32k
+#ifndef CONF_OSCULP32K_CONFIG
+#define CONF_OSCULP32K_CONFIG 1
+#endif
+
+// <h> 32kHz Ultra Low Power Internal Oscillator Control
+
+// <q> Oscillator Calibration Control
+// <i> Indicates whether Oscillator Calibration is enabled or not
+// <id> osculp32k_calib_enable
+#ifndef CONF_OSCULP32K_CALIB_ENABLE
+#define CONF_OSCULP32K_CALIB_ENABLE 0
+#endif
+
+// <o> Oscillator Calibration <0x0-0x1F>
+// <id> osculp32k_calib
+#ifndef CONF_OSCULP32K_CALIB
+#define CONF_OSCULP32K_CALIB 0x0
+#endif
+
+// </h>
+// </e>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_OSC32KCTRL_CONFIG_H
diff --git a/watch-library/shared/config/hpl_oscctrl_config.h b/watch-library/shared/config/hpl_oscctrl_config.h
new file mode 100644
index 00000000..ba2d42e6
--- /dev/null
+++ b/watch-library/shared/config/hpl_oscctrl_config.h
@@ -0,0 +1,483 @@
+/* Auto-generated config file hpl_oscctrl_config.h */
+#ifndef HPL_OSCCTRL_CONFIG_H
+#define HPL_OSCCTRL_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <e> External Multipurpose Crystal Oscillator Configuration
+// <i> Indicates whether configuration for XOSC is enabled or not
+// <id> enable_xosc
+#ifndef CONF_XOSC_CONFIG
+#define CONF_XOSC_CONFIG 0
+#endif
+
+// <o> Frequency <400000-32000000>
+// <i> Oscillation frequency of the resonator connected to the External Multipurpose Crystal Oscillator.
+// <id> xosc_frequency
+#ifndef CONF_XOSC_FREQUENCY
+#define CONF_XOSC_FREQUENCY 400000
+#endif
+
+// <h> External Multipurpose Crystal Oscillator Control
+// <q> Oscillator enable
+// <i> Indicates whether External Multipurpose Crystal Oscillator is enabled or not
+// <id> xosc_arch_enable
+#ifndef CONF_XOSC_ENABLE
+#define CONF_XOSC_ENABLE 0
+#endif
+
+// <o> Start-Up Time
+// <0x0=>31us
+// <0x1=>61us
+// <0x2=>122us
+// <0x3=>244us
+// <0x4=>488us
+// <0x5=>977us
+// <0x6=>1953us
+// <0x7=>3906us
+// <0x8=>7813us
+// <0x9=>15625us
+// <0xA=>31250us
+// <0xB=>62500us
+// <0xC=>125000us
+// <0xD=>250000us
+// <0xE=>500000us
+// <0xF=>1000000us
+// <id> xosc_arch_startup
+#ifndef CONF_XOSC_STARTUP
+#define CONF_XOSC_STARTUP 0x0
+#endif
+
+// <q> Automatic Amplitude Gain Control
+// <i> Indicates whether Automatic Amplitude Gain Control is enabled or not
+// <id> xosc_arch_ampgc
+#ifndef CONF_XOSC_AMPGC
+#define CONF_XOSC_AMPGC 0
+#endif
+
+// <o> External Multipurpose Crystal Oscillator Gain
+// <0x0=>2MHz
+// <0x1=>4MHz
+// <0x2=>8MHz
+// <0x3=>16MHz
+// <0x4=>30MHz
+// <id> xosc_arch_gain
+#ifndef CONF_XOSC_GAIN
+#define CONF_XOSC_GAIN 0x0
+#endif
+
+// <q> On Demand Control
+// <i> Indicates whether On Demand Control is enabled or not
+// <id> xosc_arch_ondemand
+#ifndef CONF_XOSC_ONDEMAND
+#define CONF_XOSC_ONDEMAND 1
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> xosc_arch_runstdby
+#ifndef CONF_XOSC_RUNSTDBY
+#define CONF_XOSC_RUNSTDBY 0
+#endif
+
+// <q> Clock Switch Back
+// <i> Indicates whether Clock Switch Back is enabled or not
+// <id> xosc_arch_swben
+#ifndef CONF_XOSC_SWBEN
+#define CONF_XOSC_SWBEN 0
+#endif
+
+// <q> Clock Failure Detector
+// <i> Indicates whether Clock Failure Detector is enabled or not
+// <id> xosc_arch_cfden
+#ifndef CONF_XOSC_CFDEN
+#define CONF_XOSC_CFDEN 0
+#endif
+
+// <q> Clock Failure Detector Event Out
+// <i> Indicates whether Clock Failure Detector Event Out is enabled or not
+// <id> xosc_arch_cfdeo
+#ifndef CONF_XOSC_CFDEO
+#define CONF_XOSC_CFDEO 0
+#endif
+
+// <q> Crystal connected to XIN/XOUT Enable
+// <i> Indicates whether the connections between the I/O pads and the external clock or crystal oscillator is enabled or not
+// <id> xosc_arch_xtalen
+#ifndef CONF_XOSC_XTALEN
+#define CONF_XOSC_XTALEN 0
+#endif
+//</h>
+//</e>
+
+// <e> 16MHz Internal Oscillator Configuration
+// <i> Indicates whether configuration for OSC8M is enabled or not
+// <id> enable_osc16m
+#ifndef CONF_OSC16M_CONFIG
+#define CONF_OSC16M_CONFIG 1
+#endif
+
+// <h> 16MHz Internal Oscillator Control
+// <q> Enable
+// <i> Indicates whether 16MHz Internal Oscillator is enabled or not
+// <id> osc16m_arch_enable
+#ifndef CONF_OSC16M_ENABLE
+#define CONF_OSC16M_ENABLE 1
+#endif
+
+// <q> On Demand Control
+// <i> Indicates whether On Demand Control is enabled or not
+// <id> osc16m_arch_ondemand
+#ifndef CONF_OSC16M_ONDEMAND
+#define CONF_OSC16M_ONDEMAND 1
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> osc16m_arch_runstdby
+#ifndef CONF_OSC16M_RUNSTDBY
+#define CONF_OSC16M_RUNSTDBY 0
+#endif
+
+// <y> Oscillator Frequency Selection(Mhz)
+// <OSCCTRL_OSC16MCTRL_FSEL_4_Val"> 4
+// <OSCCTRL_OSC16MCTRL_FSEL_8_Val"> 8
+// <OSCCTRL_OSC16MCTRL_FSEL_12_Val"> 12
+// <OSCCTRL_OSC16MCTRL_FSEL_16_Val"> 16
+// <i> This defines the oscillator frequency (Mhz)
+// <id> osc16m_freq
+#ifndef CONF_OSC16M_FSEL
+#define CONF_OSC16M_FSEL OSCCTRL_OSC16MCTRL_FSEL_4_Val
+#endif
+
+// <q> Oscillator Calibration Control
+// <i> Indicates whether Oscillator Calibration is enabled or not
+// <id> osc16m_arch_calib_enable
+#ifndef CONF_OSC16M_CALIB_ENABLE
+#define CONF_OSC16M_CALIB_ENABLE 0
+#endif
+
+// <o> 4MHz Frequency Calibration <0x0-0x3F>
+// <id> osc16m_arch_4m_fcal
+#ifndef CONF_OSC16M_FCAL
+#define CONF_OSC16M_4M_FCAL 0
+#endif
+
+// <o> 4MHz Temperature Calibration <0x0-0x3F>
+// <id> osc16m_arch_4m_tcal
+#ifndef CONF_OSC16M_TCAL
+#define CONF_OSC16M_4M_TCAL 0
+#endif
+
+// <o> 8MHz Frequency Calibration <0x0-0x3F>
+// <id> osc16m_arch_8m_fcal
+#ifndef CONF_OSC16M_FCAL
+#define CONF_OSC16M_8M_FCAL 0
+#endif
+
+// <o> 8MHz Temperature Calibration <0x0-0x3F>
+// <id> osc16m_arch_8m_tcal
+#ifndef CONF_OSC16M_TCAL
+#define CONF_OSC16M_8M_TCAL 0
+#endif
+
+// <o> 12MHz Frequency Calibration <0x0-0x3F>
+// <id> osc16m_arch_12m_fcal
+#ifndef CONF_OSC16M_FCAL
+#define CONF_OSC16M_12M_FCAL 0
+#endif
+
+// <o> 12MHz Temperature Calibration <0x0-0x3F>
+// <id> osc16m_arch_12m_tcal
+#ifndef CONF_OSC16M_TCAL
+#define CONF_OSC16M_12M_TCAL 0
+#endif
+
+// <o> 16MHz Frequency Calibration <0x0-0x3F>
+// <id> osc16m_arch_fcal
+#ifndef CONF_OSC16M_FCAL
+#define CONF_OSC16M_16M_FCAL 0
+#endif
+
+// <o> 16MHz Temperature Calibration <0x0-0x3F>
+// <id> osc16m_arch_16m_tcal
+#ifndef CONF_OSC16M_TCAL
+#define CONF_OSC16M_16M_TCAL 0
+#endif
+//</h>
+//</e>
+
+// <e> DFLL Configuration
+// <i> Indicates whether configuration for DFLL is enabled or not
+// <id> enable_dfll48m
+#ifndef CONF_DFLL_CONFIG
+#define CONF_DFLL_CONFIG 0
+#endif
+
+// <y> Reference Clock Source
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+// <GCLK_PCHCTRL_GEN_GCLK5_Val"> Generic clock generator 5
+// <GCLK_PCHCTRL_GEN_GCLK6_Val"> Generic clock generator 6
+// <GCLK_PCHCTRL_GEN_GCLK7_Val"> Generic clock generator 7
+// <i> Select the clock source.
+// <id> dfll48m_ref_clock
+#ifndef CONF_DFLL_GCLK
+#define CONF_DFLL_GCLK GCLK_PCHCTRL_GEN_GCLK3_Val
+#endif
+
+// <h> Digital Frequency Locked Loop Control
+// <q> DFLL Enable
+// <i> Indicates whether DFLL is enabled or not
+// <id> dfll48m_arch_enable
+#ifndef CONF_DFLL_ENABLE
+#define CONF_DFLL_ENABLE 0
+#endif
+
+// <q> Wait Lock
+// <i> Indicates whether Wait Lock is enabled or not
+// <id> dfll_arch_waitlock
+#ifndef CONF_DFLL_WAITLOCK
+#define CONF_DFLL_WAITLOCK 0
+#endif
+
+// <q> Bypass Coarse Lock
+// <i> Indicates whether Bypass Coarse Lock is enabled or not
+// <id> dfll_arch_bplckc
+#ifndef CONF_DFLL_BPLCKC
+#define CONF_DFLL_BPLCKC 0
+#endif
+
+// <q> Quick Lock Disable
+// <i> Indicates whether Quick Lock Disable is enabled or not
+// <id> dfll_arch_qldis
+#ifndef CONF_DFLL_QLDIS
+#define CONF_DFLL_QLDIS 0
+#endif
+
+// <q> Chill Cycle Disable
+// <i> Indicates whether Chill Cycle Disable is enabled or not
+// <id> dfll_arch_ccdis
+#ifndef CONF_DFLL_CCDIS
+#define CONF_DFLL_CCDIS 0
+#endif
+
+// <q> On Demand Control
+// <i> Indicates whether On Demand Control is enabled or not
+// <id> dfll_arch_ondemand
+#ifndef CONF_DFLL_ONDEMAND
+#define CONF_DFLL_ONDEMAND 1
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> dfll_arch_runstdby
+#ifndef CONF_DFLL_RUNSTDBY
+#define CONF_DFLL_RUNSTDBY 0
+#endif
+
+// <q> USB Clock Recovery Mode
+// <i> Indicates whether USB Clock Recovery Mode is enabled or not
+// <id> dfll_arch_usbcrm
+#ifndef CONF_DFLL_USBCRM
+#define CONF_DFLL_USBCRM 0
+#endif
+
+// <q> Lose Lock After Wake
+// <i> Indicates whether Lose Lock After Wake is enabled or not
+// <id> dfll_arch_llaw
+#ifndef CONF_DFLL_LLAW
+#define CONF_DFLL_LLAW 0
+#endif
+
+// <q> Stable DFLL Frequency
+// <i> Indicates whether Stable DFLL Frequency is enabled or not
+// <id> dfll_arch_stable
+#ifndef CONF_DFLL_STABLE
+#define CONF_DFLL_STABLE 0
+#endif
+
+// <o> Operating Mode Selection
+// <0=>Open Loop Mode
+// <1=>Closed Loop Mode
+// <id> dfll48m_mode
+#ifndef CONF_DFLL_MODE
+#define CONF_DFLL_MODE 0
+#endif
+
+// <o> Coarse Maximum Step <0x0-0x1F>
+// <id> dfll_arch_cstep
+#ifndef CONF_DFLL_CSTEP
+#define CONF_DFLL_CSTEP 1
+#endif
+
+// <o> Fine Maximum Step <0x0-0x3FF>
+// <id> dfll_arch_fstep
+#ifndef CONF_DFLL_FSTEP
+#define CONF_DFLL_FSTEP 1
+#endif
+
+// <o> DFLL Multiply Factor <0x0-0xFFFF>
+//  <id> dfll48m_mul
+#ifndef CONF_DFLL_MUL
+#define CONF_DFLL_MUL 0
+#endif
+
+// <e> DFLL Calibration Overwrite
+// <i> Indicates whether Overwrite Calibration value of DFLL
+// <id> dfll_arch_calibration
+#ifndef CONF_DFLL_OVERWRITE_CALIBRATION
+#define CONF_DFLL_OVERWRITE_CALIBRATION 0
+#endif
+
+// <o> Coarse Value <0x0-0x3F>
+// <id> dfll_arch_coarse
+#ifndef CONF_DFLL_COARSE
+#define CONF_DFLL_COARSE (0x1f / 4)
+#endif
+
+// <o> Fine Value <0x0-0x3FF>
+// <id> dfll_arch_fine
+#ifndef CONF_DFLL_FINE
+#define CONF_DFLL_FINE (0x200)
+#endif
+
+//</e>
+
+//</h>
+
+//</e>
+
+// <e> DPLL Configuration
+// <i> Indicates whether configuration for DPLL is enabled or not
+// <id> enable_fdpll96m
+#ifndef CONF_DPLL_CONFIG
+#define CONF_DPLL_CONFIG 0
+#endif
+
+// <y> Reference Clock Source
+// <GCLK_GENCTRL_SRC_XOSC32K"> 32kHz External Crystal Oscillator (XOSC32K)
+// <GCLK_GENCTRL_SRC_XOSC"> External Crystal Oscillator 0.4-32MHz (XOSC)
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+// <GCLK_PCHCTRL_GEN_GCLK5_Val"> Generic clock generator 5
+// <GCLK_PCHCTRL_GEN_GCLK6_Val"> Generic clock generator 6
+// <GCLK_PCHCTRL_GEN_GCLK7_Val"> Generic clock generator 7
+// <i> Select the clock source.
+// <id> fdpll96m_ref_clock
+#ifndef CONF_DPLL_GCLK
+#define CONF_DPLL_GCLK GCLK_GENCTRL_SRC_XOSC32K
+
+#endif
+
+// <h> Digital Phase Locked Loop Control
+// <q> Enable
+// <i> Indicates whether Digital Phase Locked Loop is enabled or not
+// <id> fdpll96m_arch_enable
+#ifndef CONF_DPLL_ENABLE
+#define CONF_DPLL_ENABLE 0
+#endif
+
+// <q> On Demand Control
+// <i> Indicates whether On Demand Control is enabled or not
+// <id> fdpll96m_arch_ondemand
+#ifndef CONF_DPLL_ONDEMAND
+#define CONF_DPLL_ONDEMAND 1
+#endif
+
+// <q> Run in Standby
+// <i> Indicates whether Run in Standby is enabled or not
+// <id> fdpll96m_arch_runstdby
+#ifndef CONF_DPLL_RUNSTDBY
+#define CONF_DPLL_RUNSTDBY 0
+#endif
+
+// <o> Loop Divider Ratio Fractional Part <0x0-0xF>
+// <id> fdpll96m_ldrfrac
+#ifndef CONF_DPLL_LDRFRAC
+#define CONF_DPLL_LDRFRAC 0xd
+#endif
+
+// <o> Loop Divider Ratio Integer Part <0x0-0xFFF>
+// <id> fdpll96m_ldr
+#ifndef CONF_DPLL_LDR
+#define CONF_DPLL_LDR 0x5b7
+#endif
+
+// <o> Clock Divider <0x0-0x3FF>
+// <id> fdpll96m_clock_div
+#ifndef CONF_DPLL_DIV
+#define CONF_DPLL_DIV 0
+#endif
+
+// <q> Lock Bypass
+// <i> Indicates whether Lock Bypass is enabled or not
+// <id> fdpll96m_arch_lbypass
+#ifndef CONF_DPLL_LBYPASS
+#define CONF_DPLL_LBYPASS 0
+#endif
+
+// <o> Lock Time
+// <0=>No time-out, automatic lock
+// <4=>The Time-out if no lock within 8 ms
+// <5=>The Time-out if no lock within 9 ms
+// <6=>The Time-out if no lock within 10 ms
+// <7=>The Time-out if no lock within 11 ms
+// <id> fdpll96m_arch_ltime
+#ifndef CONF_DPLL_LTIME
+#define CONF_DPLL_LTIME 0
+#endif
+
+// <o> Reference Clock Selection
+// <0=>XOSC32K clock reference
+// <1=>XOSC clock reference
+// <2=>GCLK clock reference
+// <id> fdpll96m_arch_refclk
+#ifndef CONF_DPLL_REFCLK
+#define CONF_DPLL_REFCLK 0
+#endif
+
+// <q> Wake Up Fast
+// <i> Indicates whether Wake Up Fast is enabled or not
+// <id> fdpll96m_arch_wuf
+#ifndef CONF_DPLL_WUF
+#define CONF_DPLL_WUF 0
+#endif
+
+// <q> Low-Power Enable
+// <i> Indicates whether Low-Power Enable is enabled or not
+// <id> fdpll96m_arch_lpen
+#ifndef CONF_DPLL_LPEN
+#define CONF_DPLL_LPEN 0
+#endif
+
+// <o> Reference Clock Selection
+// <0=>Default filter mode
+// <1=>Low bandwidth filter
+// <2=>High bandwidth filter
+// <3=>High damping filter
+// <id> fdpll96m_arch_filter
+#ifndef CONF_DPLL_FILTER
+#define CONF_DPLL_FILTER 0
+#endif
+
+// <y> Output Clock Prescaler
+// <OSCCTRL_DPLLPRESC_PRESC_DIV1_Val"> 1
+// <OSCCTRL_DPLLPRESC_PRESC_DIV2_Val"> 2
+// <OSCCTRL_DPLLPRESC_PRESC_DIV4_Val"> 4
+// <id> fdpll96m_presc
+#ifndef CONF_DPLL_PRESC
+#define CONF_DPLL_PRESC OSCCTRL_DPLLPRESC_PRESC_DIV1_Val
+#endif
+//</h>
+//</e>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_OSCCTRL_CONFIG_H
diff --git a/watch-library/shared/config/hpl_port_config.h b/watch-library/shared/config/hpl_port_config.h
new file mode 100644
index 00000000..1efce33e
--- /dev/null
+++ b/watch-library/shared/config/hpl_port_config.h
@@ -0,0 +1,284 @@
+/* Auto-generated config file hpl_port_config.h */
+#ifndef HPL_PORT_CONFIG_H
+#define HPL_PORT_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <e> PORT Input Event 0 configuration
+// <id> enable_port_input_event_0
+#ifndef CONF_PORT_EVCTRL_PORT_0
+#define CONF_PORT_EVCTRL_PORT_0 0
+#endif
+
+// <h> PORT Input Event 0 configuration on PORT A
+
+// <q> PORTA Input Event 0 Enable
+// <i> The event action will be triggered on any incoming event if PORT A Input Event 0 configuration is enabled
+// <id> porta_input_event_enable_0
+#ifndef CONF_PORTA_EVCTRL_PORTEI_0
+#define CONF_PORTA_EVCTRL_PORTEI_0 0x0
+#endif
+
+// <o> PORTA Event 0 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port A on which the event action will be performed
+// <id> porta_event_pin_identifier_0
+#ifndef CONF_PORTA_EVCTRL_PID_0
+#define CONF_PORTA_EVCTRL_PID_0 0x0
+#endif
+
+// <o> PORTA Event 0 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT A will perform on event input 0
+// <id> porta_event_action_0
+#ifndef CONF_PORTA_EVCTRL_EVACT_0
+#define CONF_PORTA_EVCTRL_EVACT_0 0
+#endif
+
+// </h>
+// <h> PORT Input Event 0 configuration on PORT B
+
+// <q> PORTB Input Event 0 Enable
+// <i> The event action will be triggered on any incoming event if PORT B Input Event 0 configuration is enabled
+// <id> portb_input_event_enable_0
+#ifndef CONF_PORTB_EVCTRL_PORTEI_0
+#define CONF_PORTB_EVCTRL_PORTEI_0 0x0
+#endif
+
+// <o> PORTB Event 0 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port B on which the event action will be performed
+// <id> portb_event_pin_identifier_0
+#ifndef CONF_PORTB_EVCTRL_PID_0
+#define CONF_PORTB_EVCTRL_PID_0 0x0
+#endif
+
+// <o> PORTB Event 0 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT B will perform on event input 0
+// <id> portb_event_action_0
+#ifndef CONF_PORTB_EVCTRL_EVACT_0
+#define CONF_PORTB_EVCTRL_EVACT_0 0
+#endif
+
+// </h>
+
+// </e>
+
+// <e> PORT Input Event 1 configuration
+// <id> enable_port_input_event_1
+#ifndef CONF_PORT_EVCTRL_PORT_1
+#define CONF_PORT_EVCTRL_PORT_1 0
+#endif
+
+// <h> PORT Input Event 1 configuration on PORT A
+
+// <q> PORTA Input Event 1 Enable
+// <i> The event action will be triggered on any incoming event if PORT A Input Event 1 configuration is enabled
+// <id> porta_input_event_enable_1
+#ifndef CONF_PORTA_EVCTRL_PORTEI_1
+#define CONF_PORTA_EVCTRL_PORTEI_1 0x0
+#endif
+
+// <o> PORTA Event 1 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port A on which the event action will be performed
+// <id> porta_event_pin_identifier_1
+#ifndef CONF_PORTA_EVCTRL_PID_1
+#define CONF_PORTA_EVCTRL_PID_1 0x0
+#endif
+
+// <o> PORTA Event 1 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT A will perform on event input 1
+// <id> porta_event_action_1
+#ifndef CONF_PORTA_EVCTRL_EVACT_1
+#define CONF_PORTA_EVCTRL_EVACT_1 0
+#endif
+
+// </h>
+// <h> PORT Input Event 1 configuration on PORT B
+
+// <q> PORTB Input Event 1 Enable
+// <i> The event action will be triggered on any incoming event if PORT B Input Event 1 configuration is enabled
+// <id> portb_input_event_enable_1
+#ifndef CONF_PORTB_EVCTRL_PORTEI_1
+#define CONF_PORTB_EVCTRL_PORTEI_1 0x0
+#endif
+
+// <o> PORTB Event 1 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port B on which the event action will be performed
+// <id> portb_event_pin_identifier_1
+#ifndef CONF_PORTB_EVCTRL_PID_1
+#define CONF_PORTB_EVCTRL_PID_1 0x0
+#endif
+
+// <o> PORTB Event 1 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT B will perform on event input 1
+// <id> portb_event_action_1
+#ifndef CONF_PORTB_EVCTRL_EVACT_1
+#define CONF_PORTB_EVCTRL_EVACT_1 0
+#endif
+
+// </h>
+
+// </e>
+
+// <e> PORT Input Event 2 configuration
+// <id> enable_port_input_event_2
+#ifndef CONF_PORT_EVCTRL_PORT_2
+#define CONF_PORT_EVCTRL_PORT_2 0
+#endif
+
+// <h> PORT Input Event 2 configuration on PORT A
+
+// <q> PORTA Input Event 2 Enable
+// <i> The event action will be triggered on any incoming event if PORT A Input Event 2 configuration is enabled
+// <id> porta_input_event_enable_2
+#ifndef CONF_PORTA_EVCTRL_PORTEI_2
+#define CONF_PORTA_EVCTRL_PORTEI_2 0x0
+#endif
+
+// <o> PORTA Event 2 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port A on which the event action will be performed
+// <id> porta_event_pin_identifier_2
+#ifndef CONF_PORTA_EVCTRL_PID_2
+#define CONF_PORTA_EVCTRL_PID_2 0x0
+#endif
+
+// <o> PORTA Event 2 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT A will perform on event input 2
+// <id> porta_event_action_2
+#ifndef CONF_PORTA_EVCTRL_EVACT_2
+#define CONF_PORTA_EVCTRL_EVACT_2 0
+#endif
+
+// </h>
+// <h> PORT Input Event 2 configuration on PORT B
+
+// <q> PORTB Input Event 2 Enable
+// <i> The event action will be triggered on any incoming event if PORT B Input Event 2 configuration is enabled
+// <id> portb_input_event_enable_2
+#ifndef CONF_PORTB_EVCTRL_PORTEI_2
+#define CONF_PORTB_EVCTRL_PORTEI_2 0x0
+#endif
+
+// <o> PORTB Event 2 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port B on which the event action will be performed
+// <id> portb_event_pin_identifier_2
+#ifndef CONF_PORTB_EVCTRL_PID_2
+#define CONF_PORTB_EVCTRL_PID_2 0x0
+#endif
+
+// <o> PORTB Event 2 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT B will perform on event input 2
+// <id> portb_event_action_2
+#ifndef CONF_PORTB_EVCTRL_EVACT_2
+#define CONF_PORTB_EVCTRL_EVACT_2 0
+#endif
+
+// </h>
+
+// </e>
+
+// <e> PORT Input Event 3 configuration
+// <id> enable_port_input_event_3
+#ifndef CONF_PORT_EVCTRL_PORT_3
+#define CONF_PORT_EVCTRL_PORT_3 0
+#endif
+
+// <h> PORT Input Event 3 configuration on PORT A
+
+// <q> PORTA Input Event 3 Enable
+// <i> The event action will be triggered on any incoming event if PORT A Input Event 3 configuration is enabled
+// <id> porta_input_event_enable_3
+#ifndef CONF_PORTA_EVCTRL_PORTEI_3
+#define CONF_PORTA_EVCTRL_PORTEI_3 0x0
+#endif
+
+// <o> PORTA Event 3 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port A on which the event action will be performed
+// <id> porta_event_pin_identifier_3
+#ifndef CONF_PORTA_EVCTRL_PID_3
+#define CONF_PORTA_EVCTRL_PID_3 0x0
+#endif
+
+// <o> PORTA Event 3 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT A will perform on event input 3
+// <id> porta_event_action_3
+#ifndef CONF_PORTA_EVCTRL_EVACT_3
+#define CONF_PORTA_EVCTRL_EVACT_3 0
+#endif
+
+// </h>
+// <h> PORT Input Event 3 configuration on PORT B
+
+// <q> PORTB Input Event 3 Enable
+// <i> The event action will be triggered on any incoming event if PORT B Input Event 3 configuration is enabled
+// <id> portb_input_event_enable_3
+#ifndef CONF_PORTB_EVCTRL_PORTEI_3
+#define CONF_PORTB_EVCTRL_PORTEI_3 0x0
+#endif
+
+// <o> PORTB Event 3 Pin Identifier <0x00-0x1F>
+// <i> These bits define the I/O pin from port B on which the event action will be performed
+// <id> portb_event_pin_identifier_3
+#ifndef CONF_PORTB_EVCTRL_PID_3
+#define CONF_PORTB_EVCTRL_PID_3 0x0
+#endif
+
+// <o> PORTB Event 3 Action
+// <0=> Output register of pin will be set to level of event
+// <1=> Set output register of pin on event
+// <2=> Clear output register of pin on event
+// <3=> Toggle output register of pin on event
+// <i> These bits define the event action the PORT B will perform on event input 3
+// <id> portb_event_action_3
+#ifndef CONF_PORTB_EVCTRL_EVACT_3
+#define CONF_PORTB_EVCTRL_EVACT_3 0
+#endif
+
+// </h>
+
+// </e>
+
+#define CONF_PORTA_EVCTRL                                                                                              \
+	(0 | PORT_EVCTRL_EVACT0(CONF_PORTA_EVCTRL_EVACT_0) | CONF_PORTA_EVCTRL_PORTEI_0 << PORT_EVCTRL_PORTEI0_Pos         \
+	 | PORT_EVCTRL_PID0(CONF_PORTA_EVCTRL_PID_0) | PORT_EVCTRL_EVACT1(CONF_PORTA_EVCTRL_EVACT_1)                       \
+	 | CONF_PORTA_EVCTRL_PORTEI_1 << PORT_EVCTRL_PORTEI1_Pos | PORT_EVCTRL_PID1(CONF_PORTA_EVCTRL_PID_1)               \
+	 | PORT_EVCTRL_EVACT2(CONF_PORTA_EVCTRL_EVACT_2) | CONF_PORTA_EVCTRL_PORTEI_2 << PORT_EVCTRL_PORTEI2_Pos           \
+	 | PORT_EVCTRL_PID2(CONF_PORTA_EVCTRL_PID_2) | PORT_EVCTRL_EVACT3(CONF_PORTA_EVCTRL_EVACT_3)                       \
+	 | CONF_PORTA_EVCTRL_PORTEI_3 << PORT_EVCTRL_PORTEI3_Pos | PORT_EVCTRL_PID3(CONF_PORTA_EVCTRL_PID_3))
+#define CONF_PORTB_EVCTRL                                                                                              \
+	(0 | PORT_EVCTRL_EVACT0(CONF_PORTB_EVCTRL_EVACT_0) | CONF_PORTB_EVCTRL_PORTEI_0 << PORT_EVCTRL_PORTEI0_Pos         \
+	 | PORT_EVCTRL_PID0(CONF_PORTB_EVCTRL_PID_0) | PORT_EVCTRL_EVACT1(CONF_PORTB_EVCTRL_EVACT_1)                       \
+	 | CONF_PORTB_EVCTRL_PORTEI_1 << PORT_EVCTRL_PORTEI1_Pos | PORT_EVCTRL_PID1(CONF_PORTB_EVCTRL_PID_1)               \
+	 | PORT_EVCTRL_EVACT2(CONF_PORTB_EVCTRL_EVACT_2) | CONF_PORTB_EVCTRL_PORTEI_2 << PORT_EVCTRL_PORTEI2_Pos           \
+	 | PORT_EVCTRL_PID2(CONF_PORTB_EVCTRL_PID_2) | PORT_EVCTRL_EVACT3(CONF_PORTB_EVCTRL_EVACT_3)                       \
+	 | CONF_PORTB_EVCTRL_PORTEI_3 << PORT_EVCTRL_PORTEI3_Pos | PORT_EVCTRL_PID3(CONF_PORTB_EVCTRL_PID_3))
+
+// <<< end of configuration section >>>
+
+#endif // HPL_PORT_CONFIG_H
diff --git a/watch-library/shared/config/hpl_rtc_config.h b/watch-library/shared/config/hpl_rtc_config.h
new file mode 100644
index 00000000..9085ca37
--- /dev/null
+++ b/watch-library/shared/config/hpl_rtc_config.h
@@ -0,0 +1,318 @@
+/* Auto-generated config file hpl_rtc_config.h */
+#ifndef HPL_RTC_CONFIG_H
+#define HPL_RTC_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <h> Basic settings
+
+#ifndef CONF_RTC_ENABLE
+#define CONF_RTC_ENABLE 1
+#endif
+
+// <q> Force reset RTC on initialization
+// <i> Force RTC to reset on initialization.
+// <i> Note that the previous power down data in RTC is lost if it's enabled.
+// <id> rtc_arch_init_reset
+#ifndef CONF_RTC_INIT_RESET
+#define CONF_RTC_INIT_RESET 0
+#endif
+
+// <o> Prescaler configuration
+// <0x0=>OFF(Peripheral clock divided by 1)
+// <0x1=>Peripheral clock divided by 1
+// <0x2=>Peripheral clock divided by 2
+// <0x3=>Peripheral clock divided by 4
+// <0x4=>Peripheral clock divided by 8
+// <0x5=>Peripheral clock divided by 16
+// <0x6=>Peripheral clock divided by 32
+// <0x7=>Peripheral clock divided by 64
+// <0x8=>Peripheral clock divided by 128
+// <0x9=>Peripheral clock divided by 256
+// <0xA=>Peripheral clock divided by 512
+// <0xB=>Peripheral clock divided by 1024
+// <i> These bits define the RTC clock relative to the peripheral clock
+// <id> rtc_arch_prescaler
+#ifndef CONF_RTC_PRESCALER
+
+#define CONF_RTC_PRESCALER 0xb
+
+#endif
+
+#ifndef CONF_RTC_COMP_VAL
+
+#define CONF_RTC_COMP_VAL 0
+
+#endif
+
+// <e> RTC Tamper Input 0 settings
+// <id> tamper_input_0_settings
+#ifndef CONF_TAMPER_INPUT_0_SETTINGS
+#define CONF_TAMPER_INPUT_0_SETTINGS 0
+#endif
+
+// <q> Tamper Level Settings
+// <i> Indicates Tamper input 0 level
+// <id> tamper_level_0
+#ifndef CONF_RTC_TAMP_LVL_0
+#define CONF_RTC_TAMP_LVL_0 0
+#endif
+
+// <o> RTC Tamper Input Action
+// <0x0=>OFF(Disabled)
+// <0x1=>Wake and Set Tamper Flag
+// <0x2=>Capture Timestamp and Set Tamper Flag
+// <0x3=>Active Layer Mode.IN and OUT pin is used.Timestamp is also captured.
+// <i> These bits define the RTC Tamper Input Action to be performed
+// <id> rtc_tamper_input_action_0
+#ifndef CONF_RTC_TAMPER_INACT_0
+#define CONF_RTC_TAMPER_INACT_0 0
+#endif
+
+// <q> Debounce Enable for Tamper Input
+// <i> Indicates Debounce should be enabled for Tamper input 0
+// <id> tamper_debounce_enable_0
+#ifndef CONF_RTC_TAMP_DEBNC_0
+#define CONF_RTC_TAMP_DEBNC_0 0
+#endif
+
+// </e>
+
+// <e> RTC Tamper Input 1 settings
+// <id> tamper_input_1_settings
+#ifndef CONF_TAMPER_INPUT_1_SETTINGS
+#define CONF_TAMPER_INPUT_1_SETTINGS 0
+#endif
+
+// <q> Tamper Level Settings
+// <i> Indicates Tamper input 1 level
+// <id> tamper_level_1
+#ifndef CONF_RTC_TAMP_LVL_1
+#define CONF_RTC_TAMP_LVL_1 0
+#endif
+
+// <o> RTC Tamper Input Action
+// <0x0=>OFF(Disabled)
+// <0x1=>Wake and Set Tamper Flag
+// <0x2=>Capture Timestamp and Set Tamper Flag
+// <0x3=>Active Layer Mode.IN and OUT pin is used.Timestamp is also captured.
+// <i> These bits define the RTC Tamper Input Action to be performed
+// <id> rtc_tamper_input_action_1
+#ifndef CONF_RTC_TAMPER_INACT_1
+#define CONF_RTC_TAMPER_INACT_1 0
+#endif
+
+// <q> Debounce Enable for Tamper Input
+// <i> Indicates Debounce should be enabled for Tamper input 1
+// <id> tamper_debounce_enable_1
+#ifndef CONF_RTC_TAMP_DEBNC_1
+#define CONF_RTC_TAMP_DEBNC_1 0
+#endif
+
+// </e>
+
+// <e> RTC Tamper Input 2 settings
+// <id> tamper_input_2_settings
+#ifndef CONF_TAMPER_INPUT_2_SETTINGS
+#define CONF_TAMPER_INPUT_2_SETTINGS 0
+#endif
+
+// <q> Tamper Level Settings
+// <i> Indicates Tamper input 2 level
+// <id> tamper_level_2
+#ifndef CONF_RTC_TAMP_LVL_2
+#define CONF_RTC_TAMP_LVL_2 0
+#endif
+
+// <o> RTC Tamper Input Action
+// <0x0=>OFF(Disabled)
+// <0x1=>Wake and Set Tamper Flag
+// <0x2=>Capture Timestamp and Set Tamper Flag
+// <0x3=>Active Layer Mode.IN and OUT pin is used.Timestamp is also captured.
+// <i> These bits define the RTC Tamper Input Action to be performed
+// <id> rtc_tamper_input_action_2
+#ifndef CONF_RTC_TAMPER_INACT_2
+#define CONF_RTC_TAMPER_INACT_2 0
+#endif
+
+// <q> Debounce Enable for Tamper Input
+// <i> Indicates Debounce should be enabled for Tamper input 2
+// <id> tamper_debounce_enable_2
+#ifndef CONF_RTC_TAMP_DEBNC_2
+#define CONF_RTC_TAMP_DEBNC_2 0
+#endif
+
+// </e>
+
+// <e> RTC Tamper Input 3 settings
+// <id> tamper_input_3_settings
+#ifndef CONF_TAMPER_INPUT_3_SETTINGS
+#define CONF_TAMPER_INPUT_3_SETTINGS 0
+#endif
+
+// <q> Tamper Level Settings
+// <i> Indicates Tamper input 3 level
+// <id> tamper_level_3
+#ifndef CONF_RTC_TAMP_LVL_3
+#define CONF_RTC_TAMP_LVL_3 0
+#endif
+
+// <o> RTC Tamper Input Action
+// <0x0=>OFF(Disabled)
+// <0x1=>Wake and Set Tamper Flag
+// <0x2=>Capture Timestamp and Set Tamper Flag
+// <0x3=>Active Layer Mode.IN and OUT pin is used.Timestamp is also captured.
+// <i> These bits define the RTC Tamper Input Action to be performed
+// <id> rtc_tamper_input_action_3
+#ifndef CONF_RTC_TAMPER_INACT_3
+#define CONF_RTC_TAMPER_INACT_3 0
+#endif
+
+// <q> Debounce Enable for Tamper Input
+// <i> Indicates Debounce should be enabled for Tamper input 3
+// <id> tamper_debounce_enable_3
+#ifndef CONF_RTC_TAMP_DEBNC_3
+#define CONF_RTC_TAMP_DEBNC_3 0
+#endif
+
+// </e>
+
+// <e> RTC Tamper Input 4 settings
+// <id> tamper_input_4_settings
+#ifndef CONF_TAMPER_INPUT_4_SETTINGS
+#define CONF_TAMPER_INPUT_4_SETTINGS 0
+#endif
+
+// <q> Tamper Level Settings
+// <i> Indicates Tamper input 4 level
+// <id> tamper_level_4
+#ifndef CONF_RTC_TAMP_LVL_4
+#define CONF_RTC_TAMP_LVL_4 0
+#endif
+
+// <o> RTC Tamper Input Action
+// <0x0=>OFF(Disabled)
+// <0x1=>Wake and Set Tamper Flag
+// <0x2=>Capture Timestamp and Set Tamper Flag
+// <0x3=>Active Layer Mode.IN and OUT pin is used.Timestamp is also captured.
+// <i> These bits define the RTC Tamper Input Action to be performed
+// <id> rtc_tamper_input_action_4
+#ifndef CONF_RTC_TAMPER_INACT_4
+#define CONF_RTC_TAMPER_INACT_4 0
+#endif
+
+// <q> Debounce Enable for Tamper Input
+// <i> Indicates Debounce should be enabled for Tamper input 4
+// <id> tamper_debounce_enable_4
+#ifndef CONF_RTC_TAMP_DEBNC_4
+#define CONF_RTC_TAMP_DEBNC_4 0
+#endif
+
+// </e>
+
+// <o> RTC Tamper Active Layer Frequency Prescalar
+// <0x0=>DIV2 CLK_RTC_OUT is CLK_RTC /2
+// <0x1=>DIV4 CLK_RTC_OUT is CLK_RTC /4
+// <0x2=>DIV8 CLK_RTC_OUT is CLK_RTC /8
+// <0x3=>DIV16 CLK_RTC_OUT is CLK_RTC /16
+// <0x4=>DIV32 CLK_RTC_OUT is CLK_RTC /32
+// <0x5=>DIV64 CLK_RTC_OUT is CLK_RTC /64
+// <0x6=>DIV128 CLK_RTC_OUT is CLK_RTC /128
+// <0x7=>DIV256 CLK_RTC_OUT is CLK_RTC /256
+// <i> These bits define the RTC Tamper Active Layer Frequecny Prescalar
+// <id> rtc_tamper_active_layer_frequency_prescalar
+#ifndef CONF_RTC_TAMP_ACT_LAYER_FREQ_PRES
+#define CONF_RTC_TAMP_ACT_LAYER_FREQ_PRES 0
+#endif
+
+// <o> RTC Tamper Debounce Frequency Prescalar
+// <0x0=>DIV2 CLK_RTC_DEB is CLK_RTC /2
+// <0x1=>DIV4 CLK_RTC_DEB is CLK_RTC /4
+// <0x2=>DIV8 CLK_RTC_DEB is CLK_RTC /8
+// <0x3=>DIV16 CLK_RTC_DEB is CLK_RTC /16
+// <0x4=>DIV32 CLK_RTC_DEB is CLK_RTC /32
+// <0x5=>DIV64 CLK_RTC_DEB is CLK_RTC /64
+// <0x6=>DIV128 CLK_RTC_DEB is CLK_RTC /128
+// <0x7=>DIV256 CLK_RTC_DEB is CLK_RTC /256
+// <i> These bits define the RTC Debounce Frequency Prescalar
+// <id> rtc_tamper_debounce_frequency_prescalar
+#ifndef CONF_RTC_TAMP_DEBF_PRES
+#define CONF_RTC_TAMP_DEBF_PRES 0
+#endif
+
+// <e> Event control
+// <id> rtc_event_control
+#ifndef CONF_RTC_EVENT_CONTROL_ENABLE
+#define CONF_RTC_EVENT_CONTROL_ENABLE 0
+#endif
+
+// <q> Periodic Interval 0 Event Output
+// <i> This bit indicates whether Periodic interval 0 event is enabled and will be generated
+// <id> rtc_pereo0
+#ifndef CONF_RTC_PEREO0
+#define CONF_RTC_PEREO0 0
+#endif
+// <q> Periodic Interval 1 Event Output
+// <i> This bit indicates whether Periodic interval 1 event is enabled and will be generated
+// <id> rtc_pereo1
+#ifndef CONF_RTC_PEREO1
+#define CONF_RTC_PEREO1 0
+#endif
+// <q> Periodic Interval 2 Event Output
+// <i> This bit indicates whether Periodic interval 2 event is enabled and will be generated
+// <id> rtc_pereo2
+#ifndef CONF_RTC_PEREO2
+#define CONF_RTC_PEREO2 0
+#endif
+// <q> Periodic Interval 3 Event Output
+// <i> This bit indicates whether Periodic interval 3 event is enabled and will be generated
+// <id> rtc_pereo3
+#ifndef CONF_RTC_PEREO3
+#define CONF_RTC_PEREO3 0
+#endif
+// <q> Periodic Interval 4 Event Output
+// <i> This bit indicates whether Periodic interval 4 event is enabled and will be generated
+// <id> rtc_pereo4
+#ifndef CONF_RTC_PEREO4
+#define CONF_RTC_PEREO4 0
+#endif
+// <q> Periodic Interval 5 Event Output
+// <i> This bit indicates whether Periodic interval 5 event is enabled and will be generated
+// <id> rtc_pereo5
+#ifndef CONF_RTC_PEREO5
+#define CONF_RTC_PEREO5 0
+#endif
+// <q> Periodic Interval 6 Event Output
+// <i> This bit indicates whether Periodic interval 6 event is enabled and will be generated
+// <id> rtc_pereo6
+#ifndef CONF_RTC_PEREO6
+#define CONF_RTC_PEREO6 0
+#endif
+// <q> Periodic Interval 7 Event Output
+// <i> This bit indicates whether Periodic interval 7 event is enabled and will be generated
+// <id> rtc_pereo7
+#ifndef CONF_RTC_PEREO7
+#define CONF_RTC_PEREO7 0
+#endif
+
+// <q> Compare 0 Event Output
+// <i> This bit indicates whether Compare O event is enabled and will be generated
+// <id> rtc_cmpeo0
+#ifndef CONF_RTC_COMPE0
+#define CONF_RTC_COMPE0 0
+#endif
+
+// <q> Overflow Event Output
+// <i> This bit indicates whether Overflow event is enabled and will be generated
+// <id> rtc_ovfeo
+#ifndef CONF_RTC_OVFEO
+#define CONF_RTC_OVFEO 0
+#endif
+
+// </e>
+
+// </h>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_RTC_CONFIG_H
diff --git a/watch-library/shared/config/hpl_sercom_config.h b/watch-library/shared/config/hpl_sercom_config.h
new file mode 100644
index 00000000..6df4b08e
--- /dev/null
+++ b/watch-library/shared/config/hpl_sercom_config.h
@@ -0,0 +1,303 @@
+/* Auto-generated config file hpl_sercom_config.h */
+#ifndef HPL_SERCOM_CONFIG_H
+#define HPL_SERCOM_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+#include <peripheral_clk_config.h>
+
+#ifndef SERCOM_I2CM_CTRLA_MODE_I2C_MASTER
+#define SERCOM_I2CM_CTRLA_MODE_I2C_MASTER (5 << 2)
+#endif
+
+#ifndef CONF_SERCOM_1_I2CM_ENABLE
+#define CONF_SERCOM_1_I2CM_ENABLE 1
+#endif
+
+// <h> Basic
+
+// <o> I2C Bus clock speed (Hz) <1-400000>
+// <i> I2C Bus clock (SCL) speed measured in Hz
+// <id> i2c_master_baud_rate
+#ifndef CONF_SERCOM_1_I2CM_BAUD
+#define CONF_SERCOM_1_I2CM_BAUD 100000
+#endif
+
+// </h>
+
+// <e> Advanced
+// <id> i2c_master_advanced
+#ifndef CONF_SERCOM_1_I2CM_ADVANCED_CONFIG
+#define CONF_SERCOM_1_I2CM_ADVANCED_CONFIG 0
+#endif
+
+// <o> TRise (ns) <0-300>
+// <i> Determined by the bus impedance, check electric characteristics in the datasheet
+// <i> Standard Fast Mode: typical 215ns, max 300ns
+// <i> Fast Mode +: typical 60ns, max 100ns
+// <i> High Speed Mode: typical 20ns, max 40ns
+// <id> i2c_master_arch_trise
+
+#ifndef CONF_SERCOM_1_I2CM_TRISE
+#define CONF_SERCOM_1_I2CM_TRISE 215
+#endif
+
+// <q> Master SCL Low Extended Time-Out (MEXTTOEN)
+// <i> This enables the master SCL low extend time-out
+// <id> i2c_master_arch_mexttoen
+#ifndef CONF_SERCOM_1_I2CM_MEXTTOEN
+#define CONF_SERCOM_1_I2CM_MEXTTOEN 0
+#endif
+
+// <q> Slave SCL Low Extend Time-Out (SEXTTOEN)
+// <i> Enables the slave SCL low extend time-out. If SCL is cumulatively held low for greater than 25ms from the initial START to a STOP, the slave will release its clock hold if enabled and reset the internal state machine
+// <id> i2c_master_arch_sexttoen
+#ifndef CONF_SERCOM_1_I2CM_SEXTTOEN
+#define CONF_SERCOM_1_I2CM_SEXTTOEN 0
+#endif
+
+// <q> SCL Low Time-Out (LOWTOUT)
+// <i> Enables SCL low time-out. If SCL is held low for 25ms-35ms, the master will release it's clock hold
+// <id> i2c_master_arch_lowtout
+#ifndef CONF_SERCOM_1_I2CM_LOWTOUT
+#define CONF_SERCOM_1_I2CM_LOWTOUT 0
+#endif
+
+// <o> Inactive Time-Out (INACTOUT)
+// <0x0=>Disabled
+// <0x1=>5-6 SCL cycle time-out(50-60us)
+// <0x2=>10-11 SCL cycle time-out(100-110us)
+// <0x3=>20-21 SCL cycle time-out(200-210us)
+// <i> Defines if inactivity time-out should be enabled, and how long the time-out should be
+// <id> i2c_master_arch_inactout
+#ifndef CONF_SERCOM_1_I2CM_INACTOUT
+#define CONF_SERCOM_1_I2CM_INACTOUT 0x0
+#endif
+
+// <o> SDA Hold Time (SDAHOLD)
+// <0=>Disabled
+// <1=>50-100ns hold time
+// <2=>300-600ns hold time
+// <3=>400-800ns hold time
+// <i> Defines the SDA hold time with respect to the negative edge of SCL
+// <id> i2c_master_arch_sdahold
+#ifndef CONF_SERCOM_1_I2CM_SDAHOLD
+#define CONF_SERCOM_1_I2CM_SDAHOLD 0x2
+#endif
+
+// <q> Run in stand-by
+// <i> Determine if the module shall run in standby sleep mode
+// <id> i2c_master_arch_runstdby
+#ifndef CONF_SERCOM_1_I2CM_RUNSTDBY
+#define CONF_SERCOM_1_I2CM_RUNSTDBY 0
+#endif
+
+// <o> Debug Stop Mode
+// <i> Behavior of the baud-rate generator when CPU is halted by external debugger.
+// <0=>Keep running
+// <1=>Halt
+// <id> i2c_master_arch_dbgstop
+#ifndef CONF_SERCOM_1_I2CM_DEBUG_STOP_MODE
+#define CONF_SERCOM_1_I2CM_DEBUG_STOP_MODE 0
+#endif
+
+// </e>
+
+#ifndef CONF_SERCOM_1_I2CM_SPEED
+#define CONF_SERCOM_1_I2CM_SPEED 0x00 // Speed: Standard/Fast mode
+#endif
+#if CONF_SERCOM_1_I2CM_TRISE < 215 || CONF_SERCOM_1_I2CM_TRISE > 300
+#warning Bad I2C Rise time for Standard/Fast mode, reset to 215ns
+#undef CONF_SERCOM_1_I2CM_TRISE
+#define CONF_SERCOM_1_I2CM_TRISE 215U
+#endif
+
+//                  gclk_freq - (i2c_scl_freq * 10) - (gclk_freq * i2c_scl_freq * Trise)
+// BAUD + BAUDLOW = --------------------------------------------------------------------
+//                  i2c_scl_freq
+// BAUD:    register value low  [7:0]
+// BAUDLOW: register value high [15:8], only used for odd BAUD + BAUDLOW
+#define CONF_SERCOM_1_I2CM_BAUD_BAUDLOW                                                                                \
+	(((CONF_GCLK_SERCOM1_CORE_FREQUENCY - (CONF_SERCOM_1_I2CM_BAUD * 10U)                                              \
+	   - (CONF_SERCOM_1_I2CM_TRISE * (CONF_SERCOM_1_I2CM_BAUD / 100U) * (CONF_GCLK_SERCOM1_CORE_FREQUENCY / 10000U)    \
+	      / 1000U))                                                                                                    \
+	      * 10U                                                                                                        \
+	  + 5U)                                                                                                            \
+	 / (CONF_SERCOM_1_I2CM_BAUD * 10U))
+#ifndef CONF_SERCOM_1_I2CM_BAUD_RATE
+#if CONF_SERCOM_1_I2CM_BAUD_BAUDLOW > (0xFF * 2)
+#warning Requested I2C baudrate too low, please check
+#define CONF_SERCOM_1_I2CM_BAUD_RATE 0xFF
+#elif CONF_SERCOM_1_I2CM_BAUD_BAUDLOW <= 1
+#warning Requested I2C baudrate too high, please check
+#define CONF_SERCOM_1_I2CM_BAUD_RATE 1
+#else
+#define CONF_SERCOM_1_I2CM_BAUD_RATE                                                                                   \
+	((CONF_SERCOM_1_I2CM_BAUD_BAUDLOW & 0x1)                                                                           \
+	     ? (CONF_SERCOM_1_I2CM_BAUD_BAUDLOW / 2) + ((CONF_SERCOM_1_I2CM_BAUD_BAUDLOW / 2 + 1) << 8)                    \
+	     : (CONF_SERCOM_1_I2CM_BAUD_BAUDLOW / 2))
+#endif
+#endif
+
+#include <peripheral_clk_config.h>
+
+// Enable configuration of module
+#ifndef CONF_SERCOM_3_SPI_ENABLE
+#define CONF_SERCOM_3_SPI_ENABLE 1
+#endif
+
+// Set module in SPI Master mode
+#ifndef CONF_SERCOM_3_SPI_MODE
+#define CONF_SERCOM_3_SPI_MODE 0x03
+#endif
+
+// <h> Basic Configuration
+
+// <q> Receive buffer enable
+// <i> Enable receive buffer to receive data from slave (RXEN)
+// <id> spi_master_rx_enable
+#ifndef CONF_SERCOM_3_SPI_RXEN
+#define CONF_SERCOM_3_SPI_RXEN 0x1
+#endif
+
+// <o> Character Size
+// <i> Bit size for all characters sent over the SPI bus (CHSIZE)
+// <0x0=>8 bits
+// <0x1=>9 bits
+// <id> spi_master_character_size
+#ifndef CONF_SERCOM_3_SPI_CHSIZE
+#define CONF_SERCOM_3_SPI_CHSIZE 0x0
+#endif
+// <o> Baud rate <1-12000000>
+// <i> The SPI data transfer rate
+// <id> spi_master_baud_rate
+#ifndef CONF_SERCOM_3_SPI_BAUD
+#define CONF_SERCOM_3_SPI_BAUD 50000
+#endif
+
+// </h>
+
+// <e> Advanced Configuration
+// <id> spi_master_advanced
+#ifndef CONF_SERCOM_3_SPI_ADVANCED
+#define CONF_SERCOM_3_SPI_ADVANCED 1
+#endif
+
+// <o> Dummy byte <0x00-0x1ff>
+// <id> spi_master_dummybyte
+// <i> Dummy byte used when reading data from the slave without sending any data
+#ifndef CONF_SERCOM_3_SPI_DUMMYBYTE
+#define CONF_SERCOM_3_SPI_DUMMYBYTE 0x1ff
+#endif
+
+// <o> Data Order
+// <0=>MSB first
+// <1=>LSB first
+// <i> I least significant or most significant bit is shifted out first (DORD)
+// <id> spi_master_arch_dord
+#ifndef CONF_SERCOM_3_SPI_DORD
+#define CONF_SERCOM_3_SPI_DORD 0x0
+#endif
+
+// <o> Clock Polarity
+// <0=>SCK is low when idle
+// <1=>SCK is high when idle
+// <i> Determines if the leading edge is rising or falling with a corresponding opposite edge at the trailing edge. (CPOL)
+// <id> spi_master_arch_cpol
+#ifndef CONF_SERCOM_3_SPI_CPOL
+#define CONF_SERCOM_3_SPI_CPOL 0x0
+#endif
+
+// <o> Clock Phase
+// <0x0=>Sample input on leading edge
+// <0x1=>Sample input on trailing edge
+// <i> Determines if input data is sampled on leading or trailing SCK edge. (CPHA)
+// <id> spi_master_arch_cpha
+#ifndef CONF_SERCOM_3_SPI_CPHA
+#define CONF_SERCOM_3_SPI_CPHA 0x0
+#endif
+
+// <o> Immediate Buffer Overflow Notification
+// <i> Controls when OVF is asserted (IBON)
+// <0x0=>In data stream
+// <0x1=>On buffer overflow
+// <id> spi_master_arch_ibon
+#ifndef CONF_SERCOM_3_SPI_IBON
+#define CONF_SERCOM_3_SPI_IBON 0x0
+#endif
+
+// <q> Run in stand-by
+// <i> Module stays active in stand-by sleep mode. (RUNSTDBY)
+// <id> spi_master_arch_runstdby
+#ifndef CONF_SERCOM_3_SPI_RUNSTDBY
+#define CONF_SERCOM_3_SPI_RUNSTDBY 0x0
+#endif
+
+// <o> Debug Stop Mode
+// <i> Behavior of the baud-rate generator when CPU is halted by external debugger. (DBGSTOP)
+// <0=>Keep running
+// <1=>Halt
+// <id> spi_master_arch_dbgstop
+#ifndef CONF_SERCOM_3_SPI_DBGSTOP
+#define CONF_SERCOM_3_SPI_DBGSTOP 0
+#endif
+
+// </e>
+
+// Address mode disabled in master mode
+#ifndef CONF_SERCOM_3_SPI_AMODE_EN
+#define CONF_SERCOM_3_SPI_AMODE_EN 0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_AMODE
+#define CONF_SERCOM_3_SPI_AMODE 0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_ADDR
+#define CONF_SERCOM_3_SPI_ADDR 0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_ADDRMASK
+#define CONF_SERCOM_3_SPI_ADDRMASK 0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_SSDE
+#define CONF_SERCOM_3_SPI_SSDE 0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_MSSEN
+#define CONF_SERCOM_3_SPI_MSSEN 0x0
+#endif
+
+#ifndef CONF_SERCOM_3_SPI_PLOADEN
+#define CONF_SERCOM_3_SPI_PLOADEN 0
+#endif
+
+// <o> Receive Data Pinout
+// <0x0=>PAD[0]
+// <0x1=>PAD[1]
+// <0x2=>PAD[2]
+// <0x3=>PAD[3]
+// <id> spi_master_rxpo
+#ifndef CONF_SERCOM_3_SPI_RXPO
+#define CONF_SERCOM_3_SPI_RXPO 2
+#endif
+
+// <o> Transmit Data Pinout
+// <0x0=>PAD[0,1]_DO_SCK
+// <0x1=>PAD[2,3]_DO_SCK
+// <0x2=>PAD[3,1]_DO_SCK
+// <0x3=>PAD[0,3]_DO_SCK
+// <id> spi_master_txpo
+#ifndef CONF_SERCOM_3_SPI_TXPO
+#define CONF_SERCOM_3_SPI_TXPO 3
+#endif
+
+// Calculate baud register value from requested baudrate value
+#ifndef CONF_SERCOM_3_SPI_BAUD_RATE
+#define CONF_SERCOM_3_SPI_BAUD_RATE ((float)CONF_GCLK_SERCOM3_CORE_FREQUENCY / (float)(2 * CONF_SERCOM_3_SPI_BAUD)) - 1
+#endif
+
+// <<< end of configuration section >>>
+
+#endif // HPL_SERCOM_CONFIG_H
diff --git a/watch-library/shared/config/hpl_slcd_config.h b/watch-library/shared/config/hpl_slcd_config.h
new file mode 100644
index 00000000..d78e3391
--- /dev/null
+++ b/watch-library/shared/config/hpl_slcd_config.h
@@ -0,0 +1,239 @@
+/* Auto-generated config file hpl_slcd_config.h */
+#ifndef HPL_SLCD_CONFIG_H
+#define HPL_SLCD_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+#include <hpl_slcd_cm.h>
+#include <peripheral_clk_config.h>
+#include "pins.h"
+
+// <h> Standard configuration
+
+// <o> Number of COM Lines
+// <i> Number of COM Lines
+// <0=>1
+// <1=>2
+// <2=>3
+// <3=>4
+// <4=>6
+// <5=>8
+// <id> slcd_arch_com_num
+#ifndef CONF_SLCD_COM_NUM
+#define CONF_SLCD_COM_NUM 2
+#endif
+
+// <o> Number of Segment Lines <1-44>
+// <i> Number of Segment Lines
+// <id> slcd_arch_seg_num
+#ifndef CONF_SLCD_SEG_NUM
+#define CONF_SLCD_SEG_NUM 24
+#endif
+
+#if CONF_SLCD_COM_NUM == SLCD_CTRLA_DUTY_SIXTH_Val && CONF_SLCD_SEG_NUM > 42
+#warning Segment number should less than or equals to 42
+#endif
+#if CONF_SLCD_COM_NUM == SLCD_CTRLA_DUTY_EIGHT_Val && CONF_SLCD_SEG_NUM > 40
+#warning Segment number should less than or equals to 40
+#endif
+
+// <o> Bias
+// <i> Bias Settting
+// <0=>STATIC
+// <1=>HALF
+// <2=>THIRD
+// <3=>FOURTH
+// <id> slcd_arch_bias
+#ifndef CONF_SLCD_BIAS
+#define CONF_SLCD_BIAS 2
+#endif
+
+#if CONF_SLCD_COM_NUM == 0 && CONF_SLCD_BIAS != 0
+#warning Recommended Bias for 1 common terminal is STATIC
+#elif CONF_SLCD_COM_NUM == 1 && CONF_SLCD_BIAS != 1
+#warning Recommended Bias for 2 Common Terminals is HALF
+#elif CONF_SLCD_COM_NUM <= 4 && CONF_SLCD_BIAS != 2
+#warning Recommended Bias for 3/4/6 Common Terminals is THIRD
+#elif CONF_SLCD_COM_NUM == 5 && CONF_SLCD_BIAS != 3
+#warning Recommended Bias for 8 Common Terminals is FOURTH
+#endif
+
+// <q> Bias Buffer Enable
+// <i> Enable Bias Buffer
+// <id> slcd_arch_bben
+#ifndef CONF_SLCD_BBEN
+#define CONF_SLCD_BBEN 1
+#endif
+
+// <o> Bias Buffer Enable Duration <1-16>
+// <i> Configure the enable duration of the bias buffer, unit is cycle of SLCD OSC clock source
+// <id> slcd_arch_bbd
+#ifndef CONF_SLCD_BBD
+#define CONF_SLCD_BBD 2
+#endif
+
+// <o> Clock Prescaler
+// <i> Setting for LCD frame frequency
+// <0=>16
+// <1=>32
+// <2=>64
+// <3=>128
+// <id> slcd_arch_presc
+#ifndef CONF_SLCD_PRESC
+#define CONF_SLCD_PRESC 1
+#endif
+
+// <o> Clock Divider
+// <i> Setting for LCD frame frequency
+// <0=>1
+// <1=>2
+// <2=>3
+// <3=>4
+// <4=>5
+// <5=>6
+// <6=>7
+// <7=>8
+// <id> slcd_arch_ckdiv
+#ifndef CONF_SLCD_CKDIV
+#define CONF_SLCD_CKDIV 5
+#endif
+
+/* TODO add frame frequency check */
+
+// <o> Reference Refresh Frequency
+// <i> Setting for Reference Refresh Frequency
+// <0=>2kHz
+// <1=>1kHz
+// <2=>500Hz
+// <3=>250Hz
+// <4=>125Hz
+// <5=>62.5Hz
+// <id> slcd_arch_rrf
+#ifndef CONF_SLCD_RRF
+#define CONF_SLCD_RRF 0
+#endif
+
+// <o> Power Refresh Frequency
+// <i> Setting for Charge pump Refresh Frequency
+// <0=>2kHz
+// <1=>1kHz
+// <2=>500Hz
+// <3=>250Hz
+// <id> slcd_arch_prf
+#ifndef CONF_SLCD_PRF
+#define CONF_SLCD_PRF 3
+#endif
+
+// <q> External VLCD
+// <i> Setting for how VLCD is generated
+// <id> slcd_arch_xvlcd
+#ifndef CONF_SLCD_XVLCD
+#define CONF_SLCD_XVLCD 0
+#endif
+
+// <o> Waveform Mode
+// <i> Setting for Waveform Mode
+// <0=>Low Power Waveform(frame-inversion)
+// <1=>Standard Waveform Mode(bit-inversion)
+// <id> slcd_arch_wmod
+#ifndef CONF_SLCD_WMOD
+#define CONF_SLCD_WMOD 0
+#endif
+
+// <o> Contrast Adjustment
+// <i> The contrast of the LCD is determined by the value of VLCD voltage.
+// <i> The higher the VLCD voltage, the higher is the contrast.
+// <i> The software contrast adjustment is only possible in internal supply mode.
+// <0=>2.5056V
+// <1=>2.5731V
+// <2=>2.6379V
+// <3=>2.7054V
+// <4=>2.7729V
+// <5=>2.8404V
+// <6=>2.9052V
+// <7=>2.9727V
+// <8=>3.0402V
+// <9=>3.1077V
+// <10=>3.1725V
+// <11=>3.24V
+// <12=>3.3075V
+// <13=>3.375V
+// <14=>3.4398V
+// <15=>3.5073V
+// <id> slcd_arch_contrast_adjust
+#ifndef CONF_SLCD_CONTRAST_ADJUST
+#define CONF_SLCD_CONTRAST_ADJUST 14
+#endif
+
+// </h>
+
+// <e> Advanced configuration
+// <id> slcd_arch_advanced_settings
+#ifndef CONF_SLCD_ADVANCED_SETTINGS
+#define CONF_SLCD_ADVANCED_SETTINGS 1
+#endif
+
+// <q> Run in standby
+// <i> Indicates whether the SLCD will continue running in standby sleep mode or not
+// <id> slcd_arch_runstdby
+#ifndef CONF_SLCD_RUNSTDBY
+#define CONF_SLCD_RUNSTDBY 1
+#endif
+
+// </e>
+
+#if SLCD_FRAME_FREQUENCY < 30 || SLCD_FRAME_FREQUENCY > 100
+#warning The optimal frame frequency should be in range from 30Hz up to 100Hz to avoid flickering and ghosting effect.
+#endif
+
+#define SLCD_FC_MAX_MS (((0x1F + 1) * 8) * (1000 / SLCD_FRAME_FREQUENCY))
+#define SLCD_FC_MIN_MS (1000 / SLCD_FRAME_FREQUENCY)
+#define SLCD_FC_BYPASS_MAX_MS ((0x1F + 1) * (1000 / SLCD_FRAME_FREQUENCY))
+
+// <e> Character Mapping Setting
+// <id> slcd_arch_cm_setting
+#ifndef CONF_SLCD_CM_ENABLE
+#define CONF_SLCD_CM_ENABLE 0
+#endif
+
+/**
+ * character lookup table
+ */
+#ifndef CONF_SLCD_LPENL
+#define CONF_SLCD_LPENL (\
+		(uint32_t)1 <<  0 | \
+		(uint32_t)1 <<  1 | \
+		(uint32_t)1 <<  2 | \
+		(uint32_t)1 <<  3 | \
+		(uint32_t)1 <<  4 | \
+		(uint32_t)1 <<  5 | \
+		(uint32_t)1 <<  6 | \
+		(uint32_t)1 <<  7 | \
+		(uint32_t)1 << 11 | \
+		(uint32_t)1 << 12 | \
+		(uint32_t)1 << 13 | \
+		(uint32_t)1 << 14 | \
+		(uint32_t)1 << 21 | \
+		(uint32_t)1 << 22 | \
+		(uint32_t)1 << 23 | \
+		(uint32_t)1 << 24 | \
+		(uint32_t)1 << 25 | \
+		(uint32_t)1 << 28 | \
+		(uint32_t)1 << 29 | \
+		(uint32_t)1 << 30 | \
+		(uint32_t)1 << 31 | 0)
+#endif // CONF_SLCD_LPENL
+
+#ifndef CONF_SLCD_LPENH
+#define CONF_SLCD_LPENH (\
+		(uint32_t)1 << (32 - 32) | \
+		(uint32_t)1 << (33 - 32) | \
+		(uint32_t)1 << (34 - 32) | \
+		(uint32_t)1 << (35 - 32) | \
+		(uint32_t)1 << (42 - 32) | \
+		(uint32_t)1 << (43 - 32) | 0)
+#endif // CONF_SLCD_LPENH
+
+// <<< end of configuration section >>>
+
+#endif // HPL_SLCD_CONFIG_H
diff --git a/watch-library/shared/config/hpl_systick_config.h b/watch-library/shared/config/hpl_systick_config.h
new file mode 100644
index 00000000..a7f2f362
--- /dev/null
+++ b/watch-library/shared/config/hpl_systick_config.h
@@ -0,0 +1,18 @@
+/* Auto-generated config file hpl_systick_config.h */
+#ifndef HPL_SYSTICK_CONFIG_H
+#define HPL_SYSTICK_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <h> Advanced settings
+// <q> SysTick exception request
+// <i> Indicates whether the generation of SysTick exception is enabled or not
+// <id> systick_arch_tickint
+#ifndef CONF_SYSTICK_TICKINT
+#define CONF_SYSTICK_TICKINT 0
+#endif
+// </h>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_SYSTICK_CONFIG_H
diff --git a/watch-library/shared/config/hpl_trng_config.h b/watch-library/shared/config/hpl_trng_config.h
new file mode 100755
index 00000000..ba901498
--- /dev/null
+++ b/watch-library/shared/config/hpl_trng_config.h
@@ -0,0 +1,27 @@
+/* Auto-generated config file hpl_trng_config.h */
+#ifndef HPL_TRNG_CONFIG_H
+#define HPL_TRNG_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <h> Advanced configurations
+
+// <q> Run In Standby
+// <i> Indicates whether the TRNG works in standby mode
+// <id> trng_runstdby
+#ifndef CONF_TRNG_RUNSTDBY
+#define CONF_TRNG_RUNSTDBY 0
+#endif
+
+// <q> Data Ready Event Output Enable
+// <i> Indicates whether the TRNG generates event on Data Ready
+// <id> trng_datardyeo
+#ifndef CONF_TRNG_DATARDYEO
+#define CONF_TRNG_DATARDYEO 0
+#endif
+
+// </h>
+
+// <<< end of configuration section >>>
+
+#endif // HPL_TRNG_CONFIG_H
diff --git a/watch-library/shared/config/nv_storage_config.h b/watch-library/shared/config/nv_storage_config.h
new file mode 100755
index 00000000..4888d1bd
--- /dev/null
+++ b/watch-library/shared/config/nv_storage_config.h
@@ -0,0 +1,51 @@
+/* Auto-generated config file nv_storage_config.h */
+#ifndef NV_STORAGE_CONFIG_H
+#define NV_STORAGE_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+//<o> Storage start address <0x00000000-0xFFFFFFFF>
+//<i> This defines the start address of device flash for storage.
+//<i> The start address should be in device flash area.
+//<i> The start address and (start address + Item Number * Sector size) cannot beyond device flash area.
+//<id> conf_storage_memory_start
+#ifndef CONF_STORAGE_MEMORY_START
+#define CONF_STORAGE_MEMORY_START 0x10000
+#endif
+
+//<o> Item number <0-65535>
+//<i> This defines the maximum number of elements stored in persistent storage
+//<id> conf_max_item_number
+#ifndef CONF_MAX_ITEM_NUMBER
+#define CONF_MAX_ITEM_NUMBER 10
+#endif
+
+//<o> Sector size <0-65535>
+//<i> This defines the size of one storage sector in bytes
+//<id> conf_sector_size
+#ifndef CONF_SECTOR_SIZE
+#define CONF_SECTOR_SIZE 4096
+#endif
+
+/**
+ * Check If the Storage configuration out of the flash area.
+ */
+#ifdef FLASH_SIZE
+#if (CONF_STORAGE_MEMORY_START + (SECTOR_AMOUNT * CONF_SECTOR_SIZE)) > FLASH_SIZE
+#error Invalidate storage configuration, make sure the configuration with \
+the sector start address (CONF_STORAGE_MEMORY_START) and sector size (CONF_SECTOR_SIZE) \
+are located within the device flash size.
+#endif
+#endif
+
+#ifdef IFLASH_SIZE
+#if (CONF_STORAGE_MEMORY_START + (SECTOR_AMOUNT * CONF_SECTOR_SIZE)) > IFLASH_SIZE
+#error Invalidate storage configuration, make sure the configuration with \
+the sector start address (CONF_STORAGE_MEMORY_START) and sector size (CONF_SECTOR_SIZE) \
+are located within the device flash size.
+#endif
+#endif
+
+// <<< end of configuration section >>>
+
+#endif // NV_STORAGE_CONFIG_H
diff --git a/watch-library/shared/config/peripheral_clk_config.h b/watch-library/shared/config/peripheral_clk_config.h
new file mode 100644
index 00000000..523b036c
--- /dev/null
+++ b/watch-library/shared/config/peripheral_clk_config.h
@@ -0,0 +1,266 @@
+/* Auto-generated config file peripheral_clk_config.h */
+#ifndef PERIPHERAL_CLK_CONFIG_H
+#define PERIPHERAL_CLK_CONFIG_H
+
+// <<< Use Configuration Wizard in Context Menu >>>
+
+// <y> ADC Clock Source
+// <id> adc_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for ADC.
+#ifndef CONF_GCLK_ADC_SRC
+#define CONF_GCLK_ADC_SRC GCLK_PCHCTRL_GEN_GCLK0_Val
+#endif
+
+/**
+ * \def CONF_GCLK_ADC_FREQUENCY
+ * \brief ADC's Clock frequency
+ */
+#ifndef CONF_GCLK_ADC_FREQUENCY
+#define CONF_GCLK_ADC_FREQUENCY 4000000
+#endif
+
+// <y> EIC Clock Source
+// <id> eic_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for EIC.
+#ifndef CONF_GCLK_EIC_SRC
+#define CONF_GCLK_EIC_SRC GCLK_PCHCTRL_GEN_GCLK3_Val
+#endif
+
+/**
+ * \def CONF_GCLK_EIC_FREQUENCY
+ * \brief EIC's Clock frequency
+ */
+#ifndef CONF_GCLK_EIC_FREQUENCY
+#define CONF_GCLK_EIC_FREQUENCY 32768
+#endif
+
+/**
+ * \def CONF_CPU_FREQUENCY
+ * \brief CPU's Clock frequency
+ */
+#ifndef CONF_CPU_FREQUENCY
+#define CONF_CPU_FREQUENCY 4000000
+#endif
+
+// <y> RTC Clock Source
+// <id> rtc_clk_selection
+// <RTC_CLOCK_SOURCE"> RTC source
+// <i> Select the clock source for RTC.
+#ifndef CONF_GCLK_RTC_SRC
+#define CONF_GCLK_RTC_SRC RTC_CLOCK_SOURCE
+#endif
+
+/**
+ * \def CONF_GCLK_RTC_FREQUENCY
+ * \brief RTC's Clock frequency
+ */
+#ifndef CONF_GCLK_RTC_FREQUENCY
+#define CONF_GCLK_RTC_FREQUENCY 1024
+#endif
+
+// <y> Core Clock Source
+// <id> core_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for CORE.
+#ifndef CONF_GCLK_SERCOM1_CORE_SRC
+#define CONF_GCLK_SERCOM1_CORE_SRC GCLK_PCHCTRL_GEN_GCLK0_Val
+#endif
+
+// <y> Slow Clock Source
+// <id> slow_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the slow clock source.
+#ifndef CONF_GCLK_SERCOM1_SLOW_SRC
+#define CONF_GCLK_SERCOM1_SLOW_SRC GCLK_PCHCTRL_GEN_GCLK3_Val
+#endif
+
+/**
+ * \def CONF_GCLK_SERCOM1_CORE_FREQUENCY
+ * \brief SERCOM1's Core Clock frequency
+ */
+#ifndef CONF_GCLK_SERCOM1_CORE_FREQUENCY
+#define CONF_GCLK_SERCOM1_CORE_FREQUENCY 4000000
+#endif
+
+/**
+ * \def CONF_GCLK_SERCOM1_SLOW_FREQUENCY
+ * \brief SERCOM1's Slow Clock frequency
+ */
+#ifndef CONF_GCLK_SERCOM1_SLOW_FREQUENCY
+#define CONF_GCLK_SERCOM1_SLOW_FREQUENCY 32768
+#endif
+
+// <y> Core Clock Source
+// <id> core_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for CORE.
+#ifndef CONF_GCLK_SERCOM3_CORE_SRC
+#define CONF_GCLK_SERCOM3_CORE_SRC GCLK_PCHCTRL_GEN_GCLK0_Val
+#endif
+
+// <y> Slow Clock Source
+// <id> slow_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the slow clock source.
+#ifndef CONF_GCLK_SERCOM3_SLOW_SRC
+#define CONF_GCLK_SERCOM3_SLOW_SRC GCLK_PCHCTRL_GEN_GCLK3_Val
+#endif
+
+/**
+ * \def CONF_GCLK_SERCOM3_CORE_FREQUENCY
+ * \brief SERCOM3's Core Clock frequency
+ */
+#ifndef CONF_GCLK_SERCOM3_CORE_FREQUENCY
+#define CONF_GCLK_SERCOM3_CORE_FREQUENCY 4000000
+#endif
+
+/**
+ * \def CONF_GCLK_SERCOM3_SLOW_FREQUENCY
+ * \brief SERCOM3's Slow Clock frequency
+ */
+#ifndef CONF_GCLK_SERCOM3_SLOW_FREQUENCY
+#define CONF_GCLK_SERCOM3_SLOW_FREQUENCY 32768
+#endif
+
+// <y> TC Clock Source
+// <id> tc_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for TC.
+#ifndef CONF_GCLK_TC3_SRC
+#define CONF_GCLK_TC3_SRC GCLK_PCHCTRL_GEN_GCLK3_Val
+#endif
+
+/**
+ * \def CONF_GCLK_TC3_FREQUENCY
+ * \brief TC3's Clock frequency
+ */
+#ifndef CONF_GCLK_TC3_FREQUENCY
+#define CONF_GCLK_TC3_FREQUENCY 32768
+#endif
+
+// <y> TCC Clock Source
+// <id> tcc_gclk_selection
+
+// <GCLK_PCHCTRL_GEN_GCLK0_Val"> Generic clock generator 0
+
+// <GCLK_PCHCTRL_GEN_GCLK1_Val"> Generic clock generator 1
+
+// <GCLK_PCHCTRL_GEN_GCLK2_Val"> Generic clock generator 2
+
+// <GCLK_PCHCTRL_GEN_GCLK3_Val"> Generic clock generator 3
+
+// <GCLK_PCHCTRL_GEN_GCLK4_Val"> Generic clock generator 4
+
+// <i> Select the clock source for TCC.
+#ifndef CONF_GCLK_TCC0_SRC
+#define CONF_GCLK_TCC0_SRC GCLK_PCHCTRL_GEN_GCLK0_Val
+#endif
+
+/**
+ * \def CONF_GCLK_TCC0_FREQUENCY
+ * \brief TCC0's Clock frequency
+ */
+#ifndef CONF_GCLK_TCC0_FREQUENCY
+#define CONF_GCLK_TCC0_FREQUENCY 16000000
+#endif
+
+#include <hpl_osc32kctrl_config.h>
+
+// <y> SLCD Clock Source
+// <id> slcd_clk_selection
+// <SLCD_CLOCK_SOURCE"> SLCD source
+// <i> Select the clock source for SLCD.
+#ifndef CONF_GCLK_SLCD_SRC
+#define CONF_GCLK_SLCD_SRC SLCD_CLOCK_SOURCE
+#endif
+
+/**
+ * \def CONF_GCLK_SLCD_FREQUENCY
+ * \brief SLCD's Clock frequency
+ */
+#ifndef CONF_GCLK_SLCD_FREQUENCY
+#define CONF_GCLK_SLCD_FREQUENCY 32768
+#endif
+
+#ifndef SLCD_FRAME_FREQUENCY
+#define SLCD_FRAME_FREQUENCY                                                                                           \
+	(CONF_GCLK_SLCD_FREQUENCY                                                                                          \
+	 / (((CONF_SLCD_PRESC + 1) * 16) * (CONF_SLCD_CKDIV + 1)                                                           \
+	    * ((CONF_SLCD_COM_NUM == 4) ? 6 : ((CONF_SLCD_COM_NUM == 5) ? 8 : (CONF_SLCD_COM_NUM + 1)))))
+#endif
+
+// <<< end of configuration section >>>
+
+#endif // PERIPHERAL_CLK_CONFIG_H
diff --git a/watch-library/shared/driver/lis2dh.c b/watch-library/shared/driver/lis2dh.c
new file mode 100644
index 00000000..20702bf5
--- /dev/null
+++ b/watch-library/shared/driver/lis2dh.c
@@ -0,0 +1,143 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "lis2dh.h"
+#include "watch.h"
+
+bool lis2dh_begin(void) {
+    if (lis2dh_get_device_id() != LIS2DH_WHO_AM_I_VAL) {
+        return false;
+    }
+    // Enable all axes, start at lowest possible data rate
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL1, LIS2DH_CTRL1_VAL_XEN |
+                                                       LIS2DH_CTRL1_VAL_YEN |
+                                                       LIS2DH_CTRL1_VAL_ZEN |
+                                                       LIS2DH_CTRL1_VAL_ODR_1HZ);
+    // Set range to ±2G and enable block data update (output registers not updated until MSB and LSB have been read)
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL4, LIS2DH_CTRL4_VAL_BDU | LIS2DH_RANGE_2_G);
+
+    return true;
+}
+
+uint8_t lis2dh_get_device_id(void) {
+    return watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_WHO_AM_I);
+}
+
+bool lis2dh_have_new_data(void) {
+    uint8_t retval = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_STATUS);
+    return !!retval; // return true if any bit is set
+}
+
+lis2dh_reading lis2dh_get_raw_reading(void) {
+    uint8_t buffer[6];
+    uint8_t reg = LIS2DH_REG_OUT_X_L | 0x80; // set high bit for consecutive reads
+    lis2dh_reading retval;
+
+    watch_i2c_send(LIS2DH_ADDRESS, &reg, 1);
+    watch_i2c_receive(LIS2DH_ADDRESS, (uint8_t *)&buffer, 6);
+
+    retval.x = buffer[0];
+    retval.x |= ((uint16_t)buffer[1]) << 8;
+    retval.y = buffer[2];
+    retval.y |= ((uint16_t)buffer[3]) << 8;
+    retval.z = buffer[4];
+    retval.z |= ((uint16_t)buffer[5]) << 8;
+
+    return retval;
+}
+
+ lis2dh_acceleration_measurement lis2dh_get_acceleration_measurement(lis2dh_reading *out_reading) {
+    lis2dh_reading reading = lis2dh_get_raw_reading();
+    uint8_t range = lis2dh_get_range();
+    if (out_reading != NULL) *out_reading = reading;
+
+    // this bit is cribbed from Adafruit's LIS3DH driver; from their notes, the magic number below
+    // converts from 16-bit lsb to 10-bit and divides by 1k to convert from milli-gs.
+    // final value is raw_lsb => 10-bit lsb -> milli-gs -> gs
+    uint8_t lsb_value = 1;
+    if (range == LIS2DH_RANGE_2_G) lsb_value = 4;
+    if (range == LIS2DH_RANGE_4_G) lsb_value = 8;
+    if (range == LIS2DH_RANGE_8_G) lsb_value = 16;
+    if (range == LIS2DH_RANGE_16_G) lsb_value = 48;
+
+    lis2dh_acceleration_measurement retval;
+
+    retval.x = lsb_value * ((float)reading.x / 64000.0);
+    retval.y = lsb_value * ((float)reading.y / 64000.0);
+    retval.z = lsb_value * ((float)reading.z / 64000.0);
+
+    return retval;
+}
+
+void lis2dh_set_range(lis2dh_range_t range) {
+    uint8_t val = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL4) & 0xCF;
+    uint8_t bits = range << 4;
+
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL4, val | bits);
+}
+
+lis2dh_range_t lis2dh_get_range(void) {
+    uint8_t retval = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL4) & 0x30;
+    retval >>= 4;
+    return (lis2dh_range_t)retval;
+}
+
+
+void lis2dh_set_data_rate(lis2dh_data_rate_t dataRate) {
+    uint8_t val = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL1) & 0x0F;
+    uint8_t bits = dataRate << 4;
+
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL1, val | bits);
+}
+
+lis2dh_data_rate_t lis2dh_get_data_rate(void) {
+    return watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL1) >> 4;
+}
+
+void lis2dh_configure_aoi_int1(lis2dh_interrupt_configuration configuration, uint8_t threshold, uint8_t duration, bool latch) {
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL3, LIS2DH_CTRL3_VAL_I1_AOI1);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT1_CFG, configuration);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT1_THS, threshold);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT1_DUR, duration);
+    uint8_t val = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL5) & 0xF7;
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL5, val | latch ? LIS2DH_CTRL5_VAL_LIR_INT1 : 0);
+}
+
+lis2dh_interrupt_state lis2dh_get_int1_state(void) {
+    return (lis2dh_interrupt_state) watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_INT1_SRC);
+}
+
+void lis2dh_configure_aoi_int2(lis2dh_interrupt_configuration configuration, uint8_t threshold, uint8_t duration, bool latch) {
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL6, LIS2DH_CTRL6_VAL_I2_INT2);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT2_CFG, configuration);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT2_THS, threshold);
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_INT2_DUR, duration);
+    uint8_t val = watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL5) & 0xFD;
+    watch_i2c_write8(LIS2DH_ADDRESS, LIS2DH_REG_CTRL5, val | latch ? LIS2DH_CTRL5_VAL_LIR_INT2 : 0);
+}
+
+lis2dh_interrupt_state lis2dh_get_int2_state(void) {
+    return (lis2dh_interrupt_state) watch_i2c_read8(LIS2DH_ADDRESS, LIS2DH_REG_INT2_SRC);
+}
+
diff --git a/watch-library/shared/driver/lis2dh.h b/watch-library/shared/driver/lis2dh.h
new file mode 100644
index 00000000..68831519
--- /dev/null
+++ b/watch-library/shared/driver/lis2dh.h
@@ -0,0 +1,222 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#ifndef LIS2DH_H
+#define LIS2DH_H
+
+#include <stdbool.h>
+#include <stdint.h>
+
+typedef struct {
+    int16_t x;
+    int16_t y;
+    int16_t z;
+} lis2dh_reading;
+
+typedef struct {
+    float x;
+    float y;
+    float z;
+} lis2dh_acceleration_measurement;
+
+typedef enum {
+  LIS2DH_RANGE_16_G = 0b11, // +/- 16g
+  LIS2DH_RANGE_8_G = 0b10,  // +/- 8g
+  LIS2DH_RANGE_4_G = 0b01,  // +/- 4g
+  LIS2DH_RANGE_2_G = 0b00   // +/- 2g (default value)
+} lis2dh_range_t;
+
+typedef enum {
+  LIS2DH_DATA_RATE_POWERDOWN = 0,
+  LIS2DH_DATA_RATE_1_HZ = 0b0001,
+  LIS2DH_DATA_RATE_10_HZ = 0b0010,
+  LIS2DH_DATA_RATE_25_HZ = 0b0011,
+  LIS2DH_DATA_RATE_50_HZ = 0b0100,
+  LIS2DH_DATA_RATE_100_HZ = 0b0101,
+  LIS2DH_DATA_RATE_200_HZ = 0b0110,
+  LIS2DH_DATA_RATE_400_HZ = 0b0111,
+  LIS2DH_DATA_RATE_LP1620HZ = 0b1000,
+  LIS2DH_DATA_RATE_LP5376HZ = 0b1001,
+
+} lis2dh_data_rate_t;
+
+typedef enum {
+  LIS2DH_INTERRUPT_CONFIGURATION_OR            = 0b00000000,
+  LIS2DH_INTERRUPT_CONFIGURATION_AND           = 0b10000000,
+  LIS2DH_INTERRUPT_CONFIGURATION_6D_MOVEMENT   = 0b01000000,
+  LIS2DH_INTERRUPT_CONFIGURATION_6D_POSITION   = 0b11000000, // in 6D mode, these have an alternate meaning:
+  LIS2DH_INTERRUPT_CONFIGURATION_Z_HIGH_ENABLE = 0b00100000, // Z up enable
+  LIS2DH_INTERRUPT_CONFIGURATION_Z_LOW_ENABLE  = 0b00010000, // Z down enable
+  LIS2DH_INTERRUPT_CONFIGURATION_Y_HIGH_ENABLE = 0b00001000, // Y up enable
+  LIS2DH_INTERRUPT_CONFIGURATION_Y_LOW_ENABLE  = 0b00000100, // Y down enable
+  LIS2DH_INTERRUPT_CONFIGURATION_X_HIGH_ENABLE = 0b00000010, // X up enable
+  LIS2DH_INTERRUPT_CONFIGURATION_X_LOW_ENABLE  = 0b00000001, // X down enable
+} lis2dh_interrupt_configuration;
+
+typedef enum {
+  LIS2DH_INTERRUPT_STATE_ACTIVE = 0b01000000,
+  LIS2DH_INTERRUPT_STATE_Z_HIGH = 0b00100000, // Z up
+  LIS2DH_INTERRUPT_STATE_Z_LOW  = 0b00010000, // Z down
+  LIS2DH_INTERRUPT_STATE_Y_HIGH = 0b00001000, // Y up
+  LIS2DH_INTERRUPT_STATE_Y_LOW  = 0b00000100, // Y down
+  LIS2DH_INTERRUPT_STATE_X_HIGH = 0b00000010, // X up
+  LIS2DH_INTERRUPT_STATE_X_LOW  = 0b00000001, // X down
+} lis2dh_interrupt_state;
+
+bool lis2dh_begin(void);
+
+uint8_t lis2dh_get_device_id(void);
+
+bool lis2dh_have_new_data(void);
+
+lis2dh_reading lis2dh_get_raw_reading(void);
+
+lis2dh_acceleration_measurement lis2dh_get_acceleration_measurement(lis2dh_reading *out_reading);
+
+void lis2dh_set_range(lis2dh_range_t range);
+
+lis2dh_range_t lis2dh_get_range(void);
+
+void lis2dh_set_data_rate(lis2dh_data_rate_t dataRate);
+
+lis2dh_data_rate_t lis2dh_get_data_rate(void);
+
+void lis2dh_configure_aoi_int1(lis2dh_interrupt_configuration configuration, uint8_t threshold, uint8_t duration, bool latch);
+
+lis2dh_interrupt_state lis2dh_get_int1_state(void);
+
+void lis2dh_configure_aoi_int2(lis2dh_interrupt_configuration configuration, uint8_t threshold, uint8_t duration, bool latch);
+
+lis2dh_interrupt_state lis2dh_get_int2_state(void);
+
+// Assumes SA0 is high; if low, its 0x18
+#define LIS2DH_ADDRESS (0x19)
+
+#define LIS2DH_REG_STATUS_AUX 0x07          ///< Auxiliary status register
+#define LIS2DH_REG_STATUS_AUX_TDA (1 << 2)  ///< Temperature data available
+#define LIS2DH_REG_STATUS_AUX_TOR (1 << 6)  ///< Temperature data overrun
+
+#define LIS2DH_REG_OUT_TEMP_L 0x0C  ///< Temperature data low bit
+#define LIS2DH_REG_OUT_TEMP_H 0x0D  ///< Temperature data high bit
+
+#define LIS2DH_REG_INT_COUNTER 0x0E
+
+#define LIS2DH_REG_WHO_AM_I 0x0F    ///< Device identification, will read 0x33
+#define LIS2DH_WHO_AM_I_VAL 0x33    ///< Expected value of the WHO_AM_I register
+
+#define LIS2DH_REG_TEMP_CFG 0x1F          ///< Temperature configuration; 0 to disable, 0xC0 to enable.
+#define LIS2DH_TEMP_CFG_VAL_ENABLE 0xC0   ///< Value for LIS2DH_REG_TEMP_CFG that enables temperature sensing.
+#define LIS2DH_TEMP_CFG_VAL_DISABLE 0x00  ///< Value for LIS2DH_REG_TEMP_CFG that disables temperature sensing.
+
+#define LIS2DH_REG_CTRL1 0x20               ///< CTRL_REG1 in the data sheet.
+#define LIS2DH_CTRL1_VAL_XEN  0b00000001    ///< Enable X-axis
+#define LIS2DH_CTRL1_VAL_YEN  0b00000010    ///< Enable Y-axis
+#define LIS2DH_CTRL1_VAL_ZEN  0b00000100    ///< Enable Z-axis
+#define LIS2DH_CTRL1_VAL_LPEN 0b00001000    ///< Enable low power mode
+#define LIS2DH_CTRL1_VAL_ODR_POWERDOWN 0    ///< Power down
+#define LIS2DH_CTRL1_VAL_ODR_1HZ        (LIS2DH_DATA_RATE_1_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_10HZ       (LIS2DH_DATA_RATE_10_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_25HZ       (LIS2DH_DATA_RATE_25_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_50HZ       (LIS2DH_DATA_RATE_50_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_100HZ      (LIS2DH_DATA_RATE_100_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_200HZ      (LIS2DH_DATA_RATE_200_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_400HZ      (LIS2DH_DATA_RATE_400_HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_LP1620HZ   (LIS2DH_DATA_RATE_LP1620HZ << 4)
+#define LIS2DH_CTRL1_VAL_ODR_LP5376HZ   (LIS2DH_DATA_RATE_LP5376HZ << 4)
+
+#define LIS2DH_REG_CTRL2 0x21
+
+#define LIS2DH_REG_CTRL3 0x22
+#define LIS2DH_CTRL3_VAL_I1_CLICK   0b10000000
+#define LIS2DH_CTRL3_VAL_I1_AOI1    0b01000000
+#define LIS2DH_CTRL3_VAL_I1_AOI2    0b00100000
+#define LIS2DH_CTRL3_VAL_I1_DRDY1   0b00010000
+#define LIS2DH_CTRL3_VAL_I1_DRDY2   0b00001000
+#define LIS2DH_CTRL3_VAL_I1_WTM     0b00000100
+#define LIS2DH_CTRL3_VAL_I1_OVERRUN 0b00000010
+
+#define LIS2DH_REG_CTRL4 0x23
+#define LIS2DH_CTRL4_VAL_BDU        0b10000000
+#define LIS2DH_CTRL4_VAL_BLE        0b01000000
+#define LIS2DH_CTRL4_VAL_RANGE_2G   (LIS2DH_RANGE_2_G << 4)
+#define LIS2DH_CTRL4_VAL_RANGE_4G   (LIS2DH_RANGE_4_G << 4)
+#define LIS2DH_CTRL4_VAL_RANGE_8G   (LIS2DH_RANGE_8_G << 4)
+#define LIS2DH_CTRL4_VAL_RANGE_16G  (LIS2DH_RANGE_16_G << 4)
+#define LIS2DH_CTRL4_VAL_HR         0b00001000
+#define LIS2DH_CTRL4_VAL_ST0        0b00000000
+#define LIS2DH_CTRL4_VAL_ST1        0b00000000
+
+#define LIS2DH_REG_CTRL5 0x24
+#define LIS2DH_CTRL5_VAL_BOOT       0b10000000
+#define LIS2DH_CTRL5_VAL_FIFO_EN    0b01000000
+#define LIS2DH_CTRL5_VAL_LIR_INT1   0b00001000
+#define LIS2DH_CTRL5_VAL_D4D_INT1   0b00000100
+#define LIS2DH_CTRL5_VAL_LIR_INT2   0b00000010
+#define LIS2DH_CTRL5_VAL_D4D_INT2   0b00000001
+
+#define LIS2DH_REG_CTRL6 0x25
+#define LIS2DH_CTRL6_VAL_I2_CLICK   0b10000000
+#define LIS2DH_CTRL6_VAL_I2_INT1    0b01000000
+#define LIS2DH_CTRL6_VAL_I2_INT2    0b00100000
+#define LIS2DH_CTRL6_VAL_BOOT_I2    0b00010000
+#define LIS2DH_CTRL6_VAL_P2_ACT     0b00001000
+#define LIS2DH_CTRL6_VAL_H_L_ACTIVE 0b00000000
+
+#define LIS2DH_REG_REFERENCE 0x26
+
+#define LIS2DH_REG_STATUS 0x27
+#define LIS2DH_STATUS_VAL_ZYXOR 0b10000000
+#define LIS2DH_STATUS_VAL_ZOR   0b01000000
+#define LIS2DH_STATUS_VAL_YOR   0b00100000
+#define LIS2DH_STATUS_VAL_XOR   0b00010000
+#define LIS2DH_STATUS_VAL_ZYXDA 0b00001000
+#define LIS2DH_STATUS_VAL_ZDA   0b00000100
+#define LIS2DH_STATUS_VAL_YDA   0b00000010
+#define LIS2DH_STATUS_VAL_XDA   0b00000001
+
+#define LIS2DH_REG_OUT_X_L 0x28
+#define LIS2DH_REG_OUT_X_H 0x29
+#define LIS2DH_REG_OUT_Y_L 0x2A
+#define LIS2DH_REG_OUT_Y_H 0x2B
+#define LIS2DH_REG_OUT_Z_L 0x2C
+#define LIS2DH_REG_OUT_Z_H 0x2D
+
+#define LIS2DH_REG_FIFO_CTRL 0x2E
+#define LIS2DH_REG_FIFO_SRC 0x2F
+#define LIS2DH_REG_INT1_CFG 0x30
+#define LIS2DH_REG_INT1_SRC 0x31
+#define LIS2DH_REG_INT1_THS 0x32
+#define LIS2DH_REG_INT1_DUR 0x33
+#define LIS2DH_REG_INT2_CFG 0x34
+#define LIS2DH_REG_INT2_SRC 0x35
+#define LIS2DH_REG_INT2_THS 0x36
+#define LIS2DH_REG_INT2_DUR 0x37
+#define LIS2DH_REG_CLICK_CFG 0x38
+#define LIS2DH_REG_CLICK_SRC 0x39
+#define LIS2DH_REG_CLICK_THS 0x3A
+#define LIS2DH_REG_TIME_LIMIT 0x3B
+#define LIS2DH_REG_TIME_LATENCY 0x3C
+#define LIS2DH_REG_TIME_WINDOW 0x3D
+
+#endif // LIS2DH_H
diff --git a/watch-library/shared/driver/lis2dw.c b/watch-library/shared/driver/lis2dw.c
new file mode 100644
index 00000000..6e1ac56d
--- /dev/null
+++ b/watch-library/shared/driver/lis2dw.c
@@ -0,0 +1,139 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "lis2dw.h"
+#include "watch.h"
+
+bool lis2dw_begin(void) {
+    if (lis2dw_get_device_id() != LIS2DW_WHO_AM_I_VAL) {
+        return false;
+    }
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL2, LIS2DW_CTRL2_VAL_BOOT);
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL2, LIS2DW_CTRL2_VAL_SOFT_RESET);
+    // Start at lowest possible data rate and lowest possible power mode
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1, LIS2DW_CTRL1_VAL_ODR_LOWEST | LIS2DW_CTRL1_VAL_MODE_LOW_POWER | LIS2DW_CTRL1_VAL_LPMODE_1);
+    // Enable block data update (output registers not updated until MSB and LSB have been read) and address autoincrement
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL2, LIS2DW_CTRL2_VAL_BDU | LIS2DW_CTRL2_VAL_IF_ADD_INC);
+    // Set range to ±2G
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL6, LIS2DW_CTRL6_VAL_RANGE_2G);
+
+    return true;
+}
+
+uint8_t lis2dw_get_device_id(void) {
+    return watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_WHO_AM_I);
+}
+
+bool lis2dw_have_new_data(void) {
+    uint8_t retval = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_STATUS);
+    return retval & LIS2DW_STATUS_VAL_DRDY;
+}
+
+lis2dw_reading lis2dw_get_raw_reading(void) {
+    uint8_t buffer[6];
+    uint8_t reg = LIS2DW_REG_OUT_X_L | 0x80; // set high bit for consecutive reads
+    lis2dw_reading retval;
+
+    watch_i2c_send(LIS2DW_ADDRESS, &reg, 1);
+    watch_i2c_receive(LIS2DW_ADDRESS, (uint8_t *)&buffer, 6);
+
+    retval.x = buffer[0];
+    retval.x |= ((uint16_t)buffer[1]) << 8;
+    retval.y = buffer[2];
+    retval.y |= ((uint16_t)buffer[3]) << 8;
+    retval.z = buffer[4];
+    retval.z |= ((uint16_t)buffer[5]) << 8;
+
+    return retval;
+}
+
+ lis2dw_acceleration_measurement lis2dw_get_acceleration_measurement(lis2dw_reading *out_reading) {
+    lis2dw_reading reading = lis2dw_get_raw_reading();
+    uint8_t range = lis2dw_get_range();
+    if (out_reading != NULL) *out_reading = reading;
+
+    // this bit is cribbed from Adafruit's LIS3DH driver; from their notes, the magic number below
+    // converts from 16-bit lsb to 10-bit and divides by 1k to convert from milli-gs.
+    // final value is raw_lsb => 10-bit lsb -> milli-gs -> gs
+    uint8_t lsb_value = 1;
+    if (range == LIS2DW_RANGE_2_G) lsb_value = 4;
+    if (range == LIS2DW_RANGE_4_G) lsb_value = 8;
+    if (range == LIS2DW_RANGE_8_G) lsb_value = 16;
+    if (range == LIS2DW_RANGE_16_G) lsb_value = 48;
+
+    lis2dw_acceleration_measurement retval;
+
+    retval.x = lsb_value * ((float)reading.x / 64000.0);
+    retval.y = lsb_value * ((float)reading.y / 64000.0);
+    retval.z = lsb_value * ((float)reading.z / 64000.0);
+
+    return retval;
+}
+
+void lis2dw_set_range(lis2dw_range_t range) {
+    uint8_t val = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL6) & ~(LIS2DW_RANGE_16_G << 4);
+    uint8_t bits = range << 4;
+
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL6, val | bits);
+}
+
+lis2dw_range_t lis2dw_get_range(void) {
+    uint8_t retval = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL6) & (LIS2DW_RANGE_16_G << 4);
+    retval >>= 4;
+    return (lis2dw_range_t)retval;
+}
+
+
+void lis2dw_set_data_rate(lis2dw_data_rate_t dataRate) {
+    uint8_t val = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) & ~(0b1111 << 4);
+    uint8_t bits = dataRate << 4;
+
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1, val | bits);
+}
+
+lis2dw_data_rate_t lis2dw_get_data_rate(void) {
+    return watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) >> 4;
+}
+
+void lis2dw_set_low_power_mode(lis2dw_low_power_mode_t mode) {
+    uint8_t val = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) & ~(0b11);
+    uint8_t bits = mode & 0b11;
+
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1, val | bits);
+}
+
+lis2dw_low_power_mode_t lis2dw_get_low_power_mode(void) {
+    return watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) & 0b11;
+}
+
+void lis2dw_set_low_noise_mode(bool on) {
+    uint8_t val = watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) & ~(LIS2DW_CTRL6_VAL_LOW_NOISE);
+    uint8_t bits = on ? LIS2DW_CTRL6_VAL_LOW_NOISE : 0;
+
+    watch_i2c_write8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1, val | bits);
+}
+
+bool lis2dw_get_low_noise_mode(void) {
+    return (watch_i2c_read8(LIS2DW_ADDRESS, LIS2DW_REG_CTRL1) & LIS2DW_CTRL6_VAL_LOW_NOISE) != 0;
+}
diff --git a/watch-library/shared/driver/lis2dw.h b/watch-library/shared/driver/lis2dw.h
new file mode 100644
index 00000000..22b4484f
--- /dev/null
+++ b/watch-library/shared/driver/lis2dw.h
@@ -0,0 +1,265 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#ifndef LIS2DW_H
+#define LIS2DW_H
+
+#include <stdbool.h>
+#include <stdint.h>
+
+typedef struct {
+    int16_t x;
+    int16_t y;
+    int16_t z;
+} lis2dw_reading;
+
+typedef struct {
+    float x;
+    float y;
+    float z;
+} lis2dw_acceleration_measurement;
+
+typedef enum {
+  LIS2DW_DATA_RATE_POWERDOWN = 0,
+  LIS2DW_DATA_RATE_LOWEST = 0b0001, // 12.5 Hz in high performance mode, 1.6 Hz in low power
+  LIS2DW_DATA_RATE_12_5_HZ = 0b0010,
+  LIS2DW_DATA_RATE_25_HZ = 0b0011,
+  LIS2DW_DATA_RATE_50_HZ = 0b0100,
+  LIS2DW_DATA_RATE_100_HZ = 0b0101,
+  LIS2DW_DATA_RATE_200_HZ = 0b0110,
+  LIS2DW_DATA_RATE_HP_400_HZ = 0b0111,
+  LIS2DW_DATA_RATE_HP_800_HZ = 0b1000,
+  LIS2DW_DATA_RATE_HP_1600_HZ = 0b1001,
+
+} lis2dw_data_rate_t;
+
+typedef enum {
+  LIS2DW_MODE_LOW_POWER = 0b00,
+  LIS2DW_MODE_HIGH_PERFORMANCE = 0b01,
+  LIS2DW_MODE_ON_DEMAND = 0b10,
+} lis2dw_mode_t;
+
+typedef enum {
+  LIS2DW_LP_MODE_1 = 0b00, // 12-bit
+  LIS2DW_LP_MODE_2 = 0b01, // 14-bit
+  LIS2DW_LP_MODE_3 = 0b10, // 14-bit
+  LIS2DW_LP_MODE_4 = 0b11, // 14-bit
+} lis2dw_low_power_mode_t;
+
+typedef enum {
+  LIS2DW_BANDWIDTH_FILTER_DIV2 = 0b00,
+  LIS2DW_BANDWIDTH_FILTER_DIV4 = 0b01,
+  LIS2DW_BANDWIDTH_FILTER_DIV10 = 0b10,
+  LIS2DW_BANDWIDTH_FILTER_DIV20 = 0b11,
+} lis2dw_bandwidth_filtering_mode_t;
+
+typedef enum {
+  LIS2DW_RANGE_16_G = 0b11, // +/- 16g
+  LIS2DW_RANGE_8_G = 0b10,  // +/- 8g
+  LIS2DW_RANGE_4_G = 0b01,  // +/- 4g
+  LIS2DW_RANGE_2_G = 0b00   // +/- 2g (default value)
+} lis2dw_range_t;
+
+// Assumes SA0 is high; if low, its 0x18
+#define LIS2DW_ADDRESS (0x19)
+
+#define LIS2DW_REG_OUT_TEMP_L 0x0D  ///< Temperature data low bit
+#define LIS2DW_REG_OUT_TEMP_H 0x0E  ///< Temperature data high bit
+
+#define LIS2DW_REG_WHO_AM_I 0x0F    ///< Device identification, will read 0x44
+#define LIS2DW_WHO_AM_I_VAL 0x44    ///< Expected value of the WHO_AM_I register
+
+#define LIS2DW_REG_CTRL1 0x20               ///< CTRL_REG1 in the data sheet.
+#define LIS2DW_CTRL1_VAL_ODR_POWERDOWN          0
+#define LIS2DW_CTRL1_VAL_ODR_LOWEST             (LIS2DW_DATA_RATE_LOWEST << 4)
+#define LIS2DW_CTRL1_VAL_ODR_12_5HZ             (LIS2DW_DATA_RATE_12_5_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_25HZ               (LIS2DW_DATA_RATE_25_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_50HZ               (LIS2DW_DATA_RATE_50_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_100HZ              (LIS2DW_DATA_RATE_100_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_200HZ              (LIS2DW_DATA_RATE_200_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_HP_400_HZ          (LIS2DW_DATA_RATE_HP_400_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_HP_800_HZ          (LIS2DW_DATA_RATE_HP_800_HZ << 4)
+#define LIS2DW_CTRL1_VAL_ODR_HP_1600_HZ         (LIS2DW_DATA_RATE_HP_1600_HZ << 4)
+#define LIS2DW_CTRL1_VAL_MODE_LOW_POWER         (LIS2DW_MODE_LOW_POWER << 2)
+#define LIS2DW_CTRL1_VAL_MODE_HIGH_PERFORMANCE  (LIS2DW_MODE_HIGH_PERFORMANCE << 2)
+#define LIS2DW_CTRL1_VAL_MODE_ON_DEMAND         (LIS2DW_MODE_ON_DEMAND << 2)
+#define LIS2DW_CTRL1_VAL_LPMODE_1               (LIS2DW_LP_MODE_1 << 0)
+#define LIS2DW_CTRL1_VAL_LPMODE_2               (LIS2DW_LP_MODE_2 << 0)
+#define LIS2DW_CTRL1_VAL_LPMODE_3               (LIS2DW_LP_MODE_3 << 0)
+#define LIS2DW_CTRL1_VAL_LPMODE_4               (LIS2DW_LP_MODE_4 << 0)
+
+#define LIS2DW_REG_CTRL2 0x21
+#define LIS2DW_CTRL2_VAL_BOOT       0b10000000
+#define LIS2DW_CTRL2_VAL_SOFT_RESET 0b01000000
+#define LIS2DW_CTRL2_VAL_CS_PU_DISC 0b00010000
+#define LIS2DW_CTRL2_VAL_BDU        0b00001000
+#define LIS2DW_CTRL2_VAL_IF_ADD_INC 0b00000100
+
+#define LIS2DW_REG_CTRL3 0x22
+#define LIS2DW_CTRL4_VAL_SELF_TEST_POS  0b10000000
+#define LIS2DW_CTRL4_VAL_SELF_TEST_NEG  0b01000000
+#define LIS2DW_CTRL3_VAL_PP_OD          0b00100000
+#define LIS2DW_CTRL3_VAL_LIR            0b00010000
+#define LIS2DW_CTRL3_VAL_H_L_ACTIVE     0b00001000
+#define LIS2DW_CTRL3_VAL_SLP_MODE_SEL   0b00000010
+#define LIS2DW_CTRL3_VAL_SLP_MODE_1     0b00000001
+
+#define LIS2DW_REG_CTRL4 0x23
+#define LIS2DW_CTRL4_INT1_6D          0b10000000
+#define LIS2DW_CTRL4_INT1_SINGLE_TAP  0b01000000
+#define LIS2DW_CTRL4_INT1_WU          0b00100000
+#define LIS2DW_CTRL4_INT1_FF          0b00010000
+#define LIS2DW_CTRL4_INT1_TAP         0b00001000
+#define LIS2DW_CTRL4_INT1_DIFF5       0b00000100
+#define LIS2DW_CTRL4_INT1_FTH         0b00000010
+#define LIS2DW_CTRL4_INT1_DRDY        0b00000001
+
+#define LIS2DW_REG_CTRL5 0x24
+#define LIS2DW_CTRL5_INT2_SLEEP_STATE 0b10000000
+#define LIS2DW_CTRL5_INT2_SLEEP_CHG   0b01000000
+#define LIS2DW_CTRL5_INT2_BOOT        0b00100000
+#define LIS2DW_CTRL5_INT2_DRDY_T      0b00010000
+#define LIS2DW_CTRL5_INT2_OVR         0b00001000
+#define LIS2DW_CTRL5_INT2_DIFF5       0b00000100
+#define LIS2DW_CTRL5_INT2_FTH         0b00000010
+#define LIS2DW_CTRL5_INT2_DRDY        0b00000001
+
+#define LIS2DW_REG_CTRL6 0x25
+#define LIS2DW_CTRL6_VAL_BANDWIDTH_DIV2   (LIS2DW_BANDWIDTH_FILTER_DIV2 << 6)
+#define LIS2DW_CTRL6_VAL_BANDWIDTH_DIV4   (LIS2DW_BANDWIDTH_FILTER_DIV4 << 6)
+#define LIS2DW_CTRL6_VAL_BANDWIDTH_DIV10  (LIS2DW_BANDWIDTH_FILTER_DIV10 << 6)
+#define LIS2DW_CTRL6_VAL_BANDWIDTH_DIV20  (LIS2DW_BANDWIDTH_FILTER_DIV20 << 6)
+#define LIS2DW_CTRL6_VAL_RANGE_2G         (LIS2DW_RANGE_2_G << 4)
+#define LIS2DW_CTRL6_VAL_RANGE_4G         (LIS2DW_RANGE_4_G << 4)
+#define LIS2DW_CTRL6_VAL_RANGE_8G         (LIS2DW_RANGE_8_G << 4)
+#define LIS2DW_CTRL6_VAL_RANGE_16G        (LIS2DW_RANGE_16_G << 4)
+#define LIS2DW_CTRL6_VAL_FDS              0b00001000
+#define LIS2DW_CTRL6_VAL_LOW_NOISE        0b00000100
+
+#define LIS2DW_REG_OUT_TEMP 0x26
+
+#define LIS2DW_REG_STATUS 0x27
+#define LIS2DW_STATUS_VAL_FIFO_THS    0b10000000
+#define LIS2DW_STATUS_VAL_WU_IA       0b01000000
+#define LIS2DW_STATUS_VAL_SLEEP_STATE 0b00100000
+#define LIS2DW_STATUS_VAL_DOUBLE_TAP  0b00010000
+#define LIS2DW_STATUS_VAL_SINGLE_TAP  0b00001000
+#define LIS2DW_STATUS_VAL_6D_IA       0b00000100
+#define LIS2DW_STATUS_VAL_FF_IA       0b00000010
+#define LIS2DW_STATUS_VAL_DRDY        0b00000001
+
+#define LIS2DW_REG_OUT_X_L 0x28
+#define LIS2DW_REG_OUT_X_H 0x29
+#define LIS2DW_REG_OUT_Y_L 0x2A
+#define LIS2DW_REG_OUT_Y_H 0x2B
+#define LIS2DW_REG_OUT_Z_L 0x2C
+#define LIS2DW_REG_OUT_Z_H 0x2D
+
+#define LIS2DW_REG_FIFO_CTRL 0x2E
+#define LIS2DW_REG_FIFO_SRC 0x2F
+
+#define LIS2DW_REG_TAP_THS_X 0x30
+#define LIS2DW_REG_TAP_THS_Y 0x31
+#define LIS2DW_REG_TAP_THS_Z 0x32
+#define LIS2DW_REG_INT1_DUR 0x33
+#define LIS2DW_REG_WAKE_UP_THS 0x34
+#define LIS2DW_REG_WAKE_UP_DUR 0x35
+#define LIS2DW_REG_FREE_FALL 0x36
+#define LIS2DW_REG_STATUS_DUP 0x37
+
+#define LIS2DW_REG_WAKE_UP_SRC 0x38
+#define LIS2DW_WAKE_UP_SRC_VAL_FF_IA          0b00100000
+#define LIS2DW_WAKE_UP_SRC_VAL_SLEEP_STATE_IA 0b00010000
+#define LIS2DW_WAKE_UP_SRC_VAL_WU_IA          0b00001000
+#define LIS2DW_WAKE_UP_SRC_VAL_X_WU           0b00000100
+#define LIS2DW_WAKE_UP_SRC_VAL_Y_WU           0b00000010
+#define LIS2DW_WAKE_UP_SRC_VAL_Z_WU           0b00000001
+
+#define LIS2DW_REG_TAP_SRC 0x39
+#define LIS2DW_TAP_SRC_VAL_TAP_IA     0b01000000
+#define LIS2DW_TAP_SRC_VAL_SINGLE_TAP 0b00100000
+#define LIS2DW_TAP_SRC_VAL_DOUBLE_TAP 0b00010000
+#define LIS2DW_TAP_SRC_VAL_TAP_SIGN   0b00001000
+#define LIS2DW_TAP_SRC_VAL_X_TAP      0b00000100
+#define LIS2DW_TAP_SRC_VAL_Y_TAP      0b00000010
+#define LIS2DW_TAP_SRC_VAL_Z_TAP      0b00000001
+
+#define LIS2DW_REG_SIXD_SRC 0x3A
+#define LIS2DW_WAKE_UP_SRC_VAL_6D_IA  0b01000000
+#define LIS2DW_WAKE_UP_SRC_VAL_ZH     0b00100000
+#define LIS2DW_WAKE_UP_SRC_VAL_ZL     0b00010000
+#define LIS2DW_WAKE_UP_SRC_VAL_YH     0b00001000
+#define LIS2DW_WAKE_UP_SRC_VAL_YL     0b00000100
+#define LIS2DW_WAKE_UP_SRC_VAL_XH     0b00000010
+#define LIS2DW_WAKE_UP_SRC_VAL_XL     0b00000001
+
+#define LIS2DW_REG_ALL_INT_SRC 0x3B
+#define LIS2DW_REG_ALL_INT_SRC_SLEEP_CHANGE_IA  0b00100000
+#define LIS2DW_REG_ALL_INT_SRC_6D_IA            0b00010000
+#define LIS2DW_REG_ALL_INT_SRC_DOUBLE_TAP       0b00001000
+#define LIS2DW_REG_ALL_INT_SRC_SINGLE_TAP       0b00000100
+#define LIS2DW_REG_ALL_INT_SRC_WU_IA            0b00000010
+#define LIS2DW_REG_ALL_INT_SRC_FF_IA            0b00000001
+
+#define LIS2DW_REG_X_OFS_USR 0x3C
+#define LIS2DW_REG_Y_OFS_USR 0x3D
+#define LIS2DW_REG_Z_OFS_USR 0x3E
+
+#define LIS2DW_REG_CTRL7 0x3F
+#define LIS2DW_CTRL7_VAL_DRDY_PULSED        0b10000000
+#define LIS2DW_CTRL7_VAL_INT2_ON_INT1       0b01000000
+#define LIS2DW_CTRL7_VAL_INTERRUPTS_ENABLE  0b00100000
+#define LIS2DW_CTRL7_VAL_USR_OFF_ON_OUT     0b00010000
+#define LIS2DW_CTRL7_VAL_USR_OFF_ON_WU      0b00001000
+#define LIS2DW_CTRL7_VAL_USR_OFF_W          0b00000100
+#define LIS2DW_CTRL7_VAL_HP_REF_MODE        0b00000010
+#define LIS2DW_CTRL7_VAL_LPASS_ON6D         0b00000001
+
+bool lis2dw_begin(void);
+
+uint8_t lis2dw_get_device_id(void);
+
+bool lis2dw_have_new_data(void);
+
+lis2dw_reading lis2dw_get_raw_reading(void);
+
+lis2dw_acceleration_measurement lis2dw_get_acceleration_measurement(lis2dw_reading *out_reading);
+
+void lis2dw_set_range(lis2dw_range_t range);
+
+lis2dw_range_t lis2dw_get_range(void);
+
+void lis2dw_set_data_rate(lis2dw_data_rate_t dataRate);
+
+lis2dw_data_rate_t lis2dw_get_data_rate(void);
+
+void lis2dw_set_low_power_mode(lis2dw_low_power_mode_t mode);
+
+lis2dw_low_power_mode_t lis2dw_get_low_power_mode(void);
+
+void lis2dw_set_low_noise_mode(bool on);
+
+bool lis2dw_get_low_noise_mode(void);
+
+#endif // LIS2DW_H
diff --git a/watch-library/shared/watch/watch.h b/watch-library/shared/watch/watch.h
new file mode 100644
index 00000000..064f90ec
--- /dev/null
+++ b/watch-library/shared/watch/watch.h
@@ -0,0 +1,83 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+/// @file watch.h
+
+#ifndef WATCH_H_
+#define WATCH_H_
+#include <stdint.h>
+#include <stdbool.h>
+#include "driver_init.h"
+
+/** @mainpage Sensor Watch Documentation
+ *  @brief This documentation covers most of the functions you will use to interact with the Sensor Watch
+           hardware. It is divided into the following sections:
+            - @ref app - This section covers the functions that you will implement in your app.c file when designing a
+                         Sensor Watch app.
+            - @ref rtc - This section covers functions related to the SAM L22's real-time clock peripheral, including
+                         date, time and alarm functions.
+            - @ref slcd - This section covers functions related to the Segment LCD display driver, which is responsible
+                          for displaying strings of characters and indicators on the main watch display.
+            - @ref buttons - This section covers functions related to the three buttons: Light, Mode and Alarm.
+            - @ref led - This section covers functions related to the bi-color red/green LED mounted behind the LCD.
+            - @ref buzzer - This section covers functions related to the piezo buzzer.
+            - @ref adc - This section covers functions related to the SAM L22's analog-to-digital converter, as well as
+                         configuring and reading values from the five analog-capable pins on the 9-pin connector.
+            - @ref gpio - This section covers functions related to general-purpose input and output signals.
+            - @ref i2c - This section covers functions related to the SAM L22's built-I2C driver, including configuring
+                         the I2C bus, putting values directly on the bus and reading data from registers on I2C devices.
+            - @ref debug - This section covers functions related to the debug UART, available on pin D1 of the 9-pin connector.
+            - @ref deepsleep - This section covers functions related to preparing for and entering BACKUP mode, the
+                               deepest sleep mode available on the SAM L22.
+ */
+
+#include "watch_app.h"
+#include "watch_rtc.h"
+#include "watch_slcd.h"
+#include "watch_extint.h"
+#include "watch_led.h"
+#include "watch_buzzer.h"
+#include "watch_adc.h"
+#include "watch_gpio.h"
+#include "watch_i2c.h"
+#include "watch_uart.h"
+#include "watch_deepsleep.h"
+
+#include "watch_private.h"
+
+/** @brief Returns true when the battery voltage dips below 2.5V.
+  * @details A CR2016 battery will have a nominal voltage between 2.9 and 3 volts for most of its lifespan. Once the battery
+  *          discharges to about 60%, the voltage will drift slightly lower; this may manifest as a dimmer LED. By the time
+  *          the battery voltage has fallen to 2.5 volts, it will have probably less than 10% of its capacity remaining, and
+  *          you can expect the voltage to drop relatively quickly as the battery dies.
+  */
+bool watch_is_battery_low(void);
+
+/** @brief Returns true if either the buzzer or the LED driver is enabled.
+  * @details Both the buzzer and the LED use the TCC peripheral to drive their behavior. This function returns true if that
+  *          peripheral is enabled. You can use this function to determine whether you need to call the watch_disable_leds or
+  *          or watch_enable_buzzer functions before using these peripherals.
+  */
+bool watch_is_buzzer_or_led_enabled(void);
+
+#endif /* WATCH_H_ */
\ No newline at end of file
diff --git a/watch-library/shared/watch/watch_adc.h b/watch-library/shared/watch/watch_adc.h
new file mode 100644
index 00000000..d4c8586d
--- /dev/null
+++ b/watch-library/shared/watch/watch_adc.h
@@ -0,0 +1,174 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_ADC_H_INCLUDED
+#define _WATCH_ADC_H_INCLUDED
+////< @file watch_adc.h
+
+#include "watch.h"
+
+// matches adc.h
+#ifndef ADC_REFCTRL_REFSEL_INTREF_Val
+#define ADC_REFCTRL_REFSEL_INTREF_Val 0x0
+#endif
+
+#ifndef ADC_REFCTRL_REFSEL_INTVCC0_Val
+#define ADC_REFCTRL_REFSEL_INTVCC0_Val 0x1
+#endif
+
+#ifndef ADC_REFCTRL_REFSEL_INTVCC1_Val
+#define ADC_REFCTRL_REFSEL_INTVCC1_Val 0x2
+#endif
+
+#ifndef ADC_REFCTRL_REFSEL_INTVCC2_Val
+#define ADC_REFCTRL_REFSEL_INTVCC2_Val 0x5
+#endif
+
+/** @addtogroup adc Analog Input
+  * @brief This section covers functions related to the SAM L22's analog-to-digital converter,
+  *        as well as configuring and reading values from the five analog-capable pins on the
+  *        9-pin connector.
+  */
+/// @{
+/** @brief Enables the ADC peripheral. You must call this before attempting to read a value
+  *        from an analog pin.
+  */
+void watch_enable_adc(void);
+
+/** @brief Configures the selected pin for analog input.
+  * @param pin One of pins A0-A4.
+  */
+void watch_enable_analog_input(const uint8_t pin);
+
+/** @brief Reads an analog value from one of the pins.
+  * @param pin One of pins A0-A4.
+  * @return a 16-bit unsigned integer from 0-65535 representing the sampled value, unless you
+  *         have changed the number of samples. @see watch_set_num_analog_samples for details
+  *         on how that function changes the values returned from this one.
+  **/
+uint16_t watch_get_analog_pin_level(const uint8_t pin);
+
+/** @brief Sets the number of samples to accumulate when measuring a pin level. Default is 16.
+  * @param samples A power of 2 <= 1024. Specifically: 1, 2, 4, 8, 16, 32, 64, 128, 256, 512
+                   or 1024. Any other value will be ignored.
+  * @details The SAM L22's ADC has a resolution of 12 bits. By default, the watch configures
+  *          the ADC to take 16 samples of the analog input and accumulate them in the result
+  *          register; this effectively gives us a 16-bit resolution, at the cost of taking 16
+  *          ADC cycles to complete a measurement. If you are measuring a slowly changing signal
+  *          like a thermistor output or an ambient light sensor this is probably fine, even
+  *          desirable. If you are measuring something a bit more fast-paced, like an analog
+  *          accelerometer, you may wish to exchange precision for speed. In this case you may
+  *          call this function to configure the ADC to accumulate fewer samples. HOWEVER! Note
+  *          that this may change the range of values returned from watch_get_analog_pin_level:
+  *            - For watch_set_num_analog_samples(1), the returned value will be 12 bits (0-4095).
+  *            - For watch_set_num_analog_samples(2), the returned value will be 13 bits (0-8191).
+  *            - For watch_set_num_analog_samples(4), the returned value will be 14 bits (0-16383).
+  *            - For watch_set_num_analog_samples(8), the returned value will be 15 bits (0-32767).
+  *         For sampling values over 16, the returned value will still be 16 bits (0-65535); the
+  *         ADC will automatically divide the measured value by whatever factor is necessary to fit
+  *         the result in 16 bits.
+  * @see watch_get_analog_pin_level
+  **/
+void watch_set_analog_num_samples(uint16_t samples);
+
+/** @brief Sets the length of time spent sampling, which allows measurement of higher impedance inputs.
+  *        Default is 1.
+  * @param cycles The number of ADC cycles to sample, between 1 and 64.
+  * @see this article by Thea Flowers: https://blog.thea.codes/getting-the-most-out-of-the-samd21-adc/
+  *      which is where I learned all of this.
+  * @details To measure an analog value, the SAM L22 must charge a capacitor to the analog voltage
+  *          presented at the input. This takes time. Importantly, the higher the input impedance,
+  *          the more time this takes. As a basic example: if you are using a thermistor tied to
+  *          VCC to measure temperature, the capacitor has to charge through the thermistor. The
+  *          higher the resistor value, the higher the input impedance, and the more time we need
+  *          to allow for the measurement. By default, the ADC is configured to run on a 500 kHz
+  *          clock with a sample time of one cycle. This is appropriate for an input impedance up
+  *          to about 28kΩ. Setting the sampling time to 4 cycles allows for an input impedance up
+  *          to 123kΩ. Setting the sampling time to the maximum of 64 cycles theoretically allows
+  *          for input impedance up to 2 MΩ. (I based these numbers on the calculator in the linked
+  *          blog post; it also has a ton of great info on the SAM D21 ADC, which is similar to the
+  *          SAM L22's).
+  **/
+void watch_set_analog_sampling_length(uint8_t cycles);
+
+typedef enum {
+    ADC_REFERENCE_INTREF = ADC_REFCTRL_REFSEL_INTREF_Val,
+    ADC_REFERENCE_VCC_DIV1POINT6 = ADC_REFCTRL_REFSEL_INTVCC0_Val,
+    ADC_REFERENCE_VCC_DIV2 = ADC_REFCTRL_REFSEL_INTVCC1_Val,
+    ADC_REFERENCE_VCC = ADC_REFCTRL_REFSEL_INTVCC2_Val,
+} watch_adc_reference_voltage;
+
+
+/** @brief Selects the reference voltage to use for analog readings. Default is ADC_REFERENCE_VCC.
+  * @param reference One of ADC_REFERENCE_VCC, ADC_REFERENCE_VCC_DIV1POINT6, ADC_REFERENCE_VCC_DIV2
+  *                  or ADC_REFERENCE_INTREF.
+  * @details In order to turn an analog voltage into a 16-bit integer, the ADC needs to compare the
+  *          measured voltage to a reference point. For example, if you were powering the watch with
+  *          VCC == 3.0V and you had two 10K resistors connected in series from 3V to GND, you could
+  *          expect to get 3 volts when you measure the top of the voltage divider, 0 volts at the
+  *          bottom, and 1.5 volts in the middle. If you read these values uising a reference voltage
+  *          of ADC_REFERENCE_VCC, the top value would be about 65535, the bottom about 0, and the
+  *          middle about 32768. However! If we used ADC_REFERENCE_VCC_DIV2 as our reference, we would
+  *          expect to get 65535 both at the top and the middle, because the largest value the ADC can
+  *          measure in this configutation is 1.5V (VCC / 2).
+  *
+  *          By changing the reference voltage from ADC_REFERENCE_VCC to ADC_REFERENCE_VCC_DIV1POINT6
+  *          or ADC_REFERENCE_VCC_DIV2, you can get more resolution when measuring small voltages (i.e.
+  *          a phototransistor circuit in low light).
+  *
+  *          There is also a special reference voltage called ADC_REFERENCE_INTREF. The SAM L22's
+  *          Supply Controller provides a selectable voltage reference (by default, 1.024 V) that you
+  *          can select as a reference voltage for ADC conversions. Unlike the three references we
+  *          talked about in the last paragraph, this reference voltage does not depend on VCC, which
+  *          makes it very useful for measuring the battery voltage (since you can't really compare
+  *          VCC to itself). You can change the INTREF voltage to 2.048 or 4.096 V by poking at the
+  *          supply controller's VREF register, but the watch library does not support this use case.
+  **/
+void watch_set_analog_reference_voltage(watch_adc_reference_voltage reference);
+
+/** @brief Returns the voltage of the VCC supply in millivolts (i.e. 3000 mV == 3.0 V). If running on
+  *        a coin cell, this will be the battery voltage.
+  * @details Unlike other ADC functions, this function does not return a raw value from the ADC, but
+  *          rather scales it to an actual number of millivolts. This is because the ADC doesn't let
+  *          us measure VCC per se; it instead lets us measure VCC / 4, and we choose to measure it
+  *          against the internal reference voltage of 1.024 V. In short, the ADC gives us a number
+  *          that's complicated to deal with, so we just turn it into a useful number for you :)
+  * @note This function depends on INTREF being 1.024V. If you have changed it by poking at the supply
+  *       controller's VREF.SEL bits, this function will return inaccurate values.
+  */
+uint16_t watch_get_vcc_voltage(void);
+
+/** @brief Disables the analog circuitry on the selected pin.
+  * @param pin One of pins A0-A4.
+  */
+void watch_disable_analog_input(const uint8_t pin);
+
+/** @brief Disables the ADC peripheral.
+  * @note You will need to call watch_enable_adc to re-enable the ADC peripheral. When you do, it will
+  *       have the default settings of 16 samples and 1 measurement cycle; if you customized these
+  *       parameters, you will need to set them up again.
+  **/
+void watch_disable_adc(void);
+
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_app.h b/watch-library/shared/watch/watch_app.h
new file mode 100644
index 00000000..4fa29df8
--- /dev/null
+++ b/watch-library/shared/watch/watch_app.h
@@ -0,0 +1,108 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_APP_H_INCLUDED
+#define _WATCH_APP_H_INCLUDED
+////< @file watch_app.h
+
+/** @addtogroup app Application Framework
+  * @brief This section covers the functions that you will implement in your app.c file when designing a Sensor Watch app.
+  * @details You should be able to write a watch app by simply implementing these functions and declaring callbacks for
+  *          various GPIO and peripheral interrupts. The main.c file takes care of calling these functions for you. The
+  *          general flow:
+  *
+  *            1. Your app_init() function is called.
+  *               - This method should only be used to set your initial application state.
+  *            2. If your app is waking from BACKUP, app_wake_from_backup() is called.
+  *               - If you saved state in the RTC's backup registers, you can restore it here.
+  *            3. Your app_setup() method is called.
+  *               - You may wish to enable some functionality and peripherals here.
+  *               - You should definitely set up some interrupts here.
+  *            4. The main run loop begins: your app_loop() function is called.
+  *               - Run code and update your UI here.
+  *               - Return true if your app is prepared to enter STANDBY mode.
+  *            5. This step differs depending on the value returned by app_loop:
+  *               - If you returned false, execution resumes at (4).
+  *               - If you returned true, app_prepare_for_standby() is called; execution moves on to (6).
+  *            6. The microcontroller enters STANDBY mode.
+  *               - No user code will run, and the watch will enter a low power mode.
+  *               - The watch will remain in this state until an interrupt wakes it.
+  *            7. Once woken from STANDBY, your app_wake_from_standby() function is called.
+  *               - After this, execution resumes at (4).
+  */
+/// @{
+/** @brief A function you will implement to initialize your application state. The app_init function is called before
+  *        anything else. Use it to set up any internal data structures or application state required by your app,
+  *        but don't configure any peripherals just yet.
+  */
+void app_init(void);
+
+/** @brief A function you will implement to wake from BACKUP mode, which wipes the system's RAM, and with it, your
+  *        application's state. You may have chosen to store some important application state in the RTC's backup
+  *        registers prior to entering this mode. You may restore that state here.
+  */
+void app_wake_from_backup(void);
+
+/** @brief A function you will implement to set up your application. The app_setup function is like setup() in Arduino.
+  *        It is called once when the program begins. You should set pin modes and enable any peripherals you want to
+  *        set up (real-time clock, I2C, etc.) Depending on your application, you may or may not want to configure
+  *        sensors on your sensor board here. For example, a low-power accelerometer that will run at all times should
+  *        be configured here, whereas you may want to enable a more power-hungry sensor only when you need it.
+  * @note If your app enters the ultra-low power BACKUP sleep mode, this function will be called again when it wakes
+  *       from that deep sleep state. In this state, the RTC will still be configured with the correct date and time.
+  */
+void app_setup(void);
+
+/** @brief A function you will implement to serve as the app's main run loop. This method will be called repeatedly,
+           or if you enter STANDBY mode, as soon as the device wakes from sleep.
+  * @return You should return true if your app is prepared to enter STANDBY mode. If you return false, your app's
+  *         app_loop method will be called again immediately. Note that in STANDBY mode, the watch will consume only
+  *         about 95 microamperes of power, whereas if you return false and keep the app awake, it will consume about
+  *         355 microamperes. This is the difference between months of battery life and days. As much as possible,
+  *         you should limit the amount of time your app spends awake.
+  * @note Only the RTC, the segment LCD controller and the external interrupt controller run in STANDBY mode. If you
+  *       are using, e.g. the PWM function to set a custom LED color, you should return false here until you are
+  *       finished with that operation. Note however that the peripherals will continue running after waking up,
+  *       so e.g. the I2C controller, if configured, will sleep in STANDBY. But you can use it again as soon as your
+  *       app wakes up.
+  */
+bool app_loop(void);
+
+/** @brief A function you will implement to prepare to enter STANDBY mode. The app_prepare_for_standby function is
+ *         called after your app_loop function returns true, and just before the watch enters STANDBY mode. In this
+ *         mode most peripherals are shut down, and no code will run until the watch receives an interrupt (generally
+ *         either the 1Hz tick or a press on one of the buttons).
+ * @note If you are PWM'ing the LED or playing a sound on the buzzer, the TC/TCC peripherals that drive those operations
+ *       will not run in STANDBY. BUT! the output pins will retain the state they had when entering standby. This means
+ *       you could end up entering standby with an LED on and draining power, or with a DC potential across the piezo
+ *       buzzer that could damage it if left in this state. If your app_loop does not prevent sleep during these
+ *       activities, you should make sure to disable these outputs in app_prepare_for_standby.
+ */
+void app_prepare_for_standby(void);
+
+/** @brief A method you will implement to configure the app after waking from STANDBY mode.
+  */
+void app_wake_from_standby(void);
+
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_buzzer.h b/watch-library/shared/watch/watch_buzzer.h
new file mode 100644
index 00000000..1b5d197c
--- /dev/null
+++ b/watch-library/shared/watch/watch_buzzer.h
@@ -0,0 +1,164 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_BUZZER_H_INCLUDED
+#define _WATCH_BUZZER_H_INCLUDED
+////< @file watch_buzzer.h
+
+#include "watch.h"
+
+/** @addtogroup buzzer Buzzer
+  * @brief This section covers functions related to the piezo buzzer embedded in the F-91W's back plate.
+  */
+/// @{
+/** @brief Enables the TCC peripheral, which drives the buzzer.
+  */
+void watch_enable_buzzer(void);
+
+/** @brief Sets the period of the buzzer.
+  * @param period The period of a single cycle for the TCC peripheral. You can determine the period for
+  *               a desired frequency with the following formula: period = 1000000 / freq
+  */
+void watch_set_buzzer_period(uint32_t period);
+
+/** @brief Disables the TCC peripheral that drives the buzzer.
+  * @note If you are using PWM to set custom LED colors, this method will also disable the LED PWM driver,
+  *       since the buzzer and LED both make use of the same peripheral to drive their PWM behavior.
+  */
+void watch_disable_buzzer(void);
+
+/** @brief Turns the buzzer output on. It will emit a continuous sound at the given frequency.
+  * @note The TCC peripheral that drives the buzzer does not run in standby mode; if you wish for buzzer
+  *       output to continue, you should prevent your app from going to sleep.
+  */
+void watch_set_buzzer_on(void);
+
+/** @brief Turns the buzzer output off.
+  */
+void watch_set_buzzer_off(void);
+
+/// @brief 87 notes for use with watch_buzzer_play_note
+typedef enum BuzzerNote {
+    BUZZER_NOTE_A1,              ///< 55.00 Hz
+    BUZZER_NOTE_A1SHARP_B1FLAT,  ///< 58.27 Hz
+    BUZZER_NOTE_B1,              ///< 61.74 Hz
+    BUZZER_NOTE_C2,              ///< 65.41 Hz
+    BUZZER_NOTE_C2SHARP_D2FLAT,  ///< 69.30 Hz
+    BUZZER_NOTE_D2,              ///< 73.42 Hz
+    BUZZER_NOTE_D2SHARP_E2FLAT,  ///< 77.78 Hz
+    BUZZER_NOTE_E2,              ///< 82.41 Hz
+    BUZZER_NOTE_F2,              ///< 87.31 Hz
+    BUZZER_NOTE_F2SHARP_G2FLAT,  ///< 92.50 Hz
+    BUZZER_NOTE_G2,              ///< 98.00 Hz
+    BUZZER_NOTE_G2SHARP_A2FLAT,  ///< 103.83 Hz
+    BUZZER_NOTE_A2,              ///< 110.00 Hz
+    BUZZER_NOTE_A2SHARP_B2FLAT,  ///< 116.54 Hz
+    BUZZER_NOTE_B2,              ///< 123.47 Hz
+    BUZZER_NOTE_C3,              ///< 130.81 Hz
+    BUZZER_NOTE_C3SHARP_D3FLAT,  ///< 138.59 Hz
+    BUZZER_NOTE_D3,              ///< 146.83 Hz
+    BUZZER_NOTE_D3SHARP_E3FLAT,  ///< 155.56 Hz
+    BUZZER_NOTE_E3,              ///< 164.81 Hz
+    BUZZER_NOTE_F3,              ///< 174.61 Hz
+    BUZZER_NOTE_F3SHARP_G3FLAT,  ///< 185.00 Hz
+    BUZZER_NOTE_G3,              ///< 196.00 Hz
+    BUZZER_NOTE_G3SHARP_A3FLAT,  ///< 207.65 Hz
+    BUZZER_NOTE_A3,              ///< 220.00 Hz
+    BUZZER_NOTE_A3SHARP_B3FLAT,  ///< 233.08 Hz
+    BUZZER_NOTE_B3,              ///< 246.94 Hz
+    BUZZER_NOTE_C4,              ///< 261.63 Hz
+    BUZZER_NOTE_C4SHARP_D4FLAT,  ///< 277.18 Hz
+    BUZZER_NOTE_D4,              ///< 293.66 Hz
+    BUZZER_NOTE_D4SHARP_E4FLAT,  ///< 311.13 Hz
+    BUZZER_NOTE_E4,              ///< 329.63 Hz
+    BUZZER_NOTE_F4,              ///< 349.23 Hz
+    BUZZER_NOTE_F4SHARP_G4FLAT,  ///< 369.99 Hz
+    BUZZER_NOTE_G4,              ///< 392.00 Hz
+    BUZZER_NOTE_G4SHARP_A4FLAT,  ///< 415.30 Hz
+    BUZZER_NOTE_A4,              ///< 440.00 Hz
+    BUZZER_NOTE_A4SHARP_B4FLAT,  ///< 466.16 Hz
+    BUZZER_NOTE_B4,              ///< 493.88 Hz
+    BUZZER_NOTE_C5,              ///< 523.25 Hz
+    BUZZER_NOTE_C5SHARP_D5FLAT,  ///< 554.37 Hz
+    BUZZER_NOTE_D5,              ///< 587.33 Hz
+    BUZZER_NOTE_D5SHARP_E5FLAT,  ///< 622.25 Hz
+    BUZZER_NOTE_E5,              ///< 659.25 Hz
+    BUZZER_NOTE_F5,              ///< 698.46 Hz
+    BUZZER_NOTE_F5SHARP_G5FLAT,  ///< 739.99 Hz
+    BUZZER_NOTE_G5,              ///< 783.99 Hz
+    BUZZER_NOTE_G5SHARP_A5FLAT,  ///< 830.61 Hz
+    BUZZER_NOTE_A5,              ///< 880.00 Hz
+    BUZZER_NOTE_A5SHARP_B5FLAT,  ///< 932.33 Hz
+    BUZZER_NOTE_B5,              ///< 987.77 Hz
+    BUZZER_NOTE_C6,              ///< 1046.50 Hz
+    BUZZER_NOTE_C6SHARP_D6FLAT,  ///< 1108.73 Hz
+    BUZZER_NOTE_D6,              ///< 1174.66 Hz
+    BUZZER_NOTE_D6SHARP_E6FLAT,  ///< 1244.51 Hz
+    BUZZER_NOTE_E6,              ///< 1318.51 Hz
+    BUZZER_NOTE_F6,              ///< 1396.91 Hz
+    BUZZER_NOTE_F6SHARP_G6FLAT,  ///< 1479.98 Hz
+    BUZZER_NOTE_G6,              ///< 1567.98 Hz
+    BUZZER_NOTE_G6SHARP_A6FLAT,  ///< 1661.22 Hz
+    BUZZER_NOTE_A6,              ///< 1760.00 Hz
+    BUZZER_NOTE_A6SHARP_B6FLAT,  ///< 1864.66 Hz
+    BUZZER_NOTE_B6,              ///< 1975.53 Hz
+    BUZZER_NOTE_C7,              ///< 2093.00 Hz
+    BUZZER_NOTE_C7SHARP_D7FLAT,  ///< 2217.46 Hz
+    BUZZER_NOTE_D7,              ///< 2349.32 Hz
+    BUZZER_NOTE_D7SHARP_E7FLAT,  ///< 2489.02 Hz
+    BUZZER_NOTE_E7,              ///< 2637.02 Hz
+    BUZZER_NOTE_F7,              ///< 2793.83 Hz
+    BUZZER_NOTE_F7SHARP_G7FLAT,  ///< 2959.96 Hz
+    BUZZER_NOTE_G7,              ///< 3135.96 Hz
+    BUZZER_NOTE_G7SHARP_A7FLAT,  ///< 3322.44 Hz
+    BUZZER_NOTE_A7,              ///< 3520.00 Hz
+    BUZZER_NOTE_A7SHARP_B7FLAT,  ///< 3729.31 Hz
+    BUZZER_NOTE_B7,              ///< 3951.07 Hz
+    BUZZER_NOTE_C8,              ///< 4186.01 Hz
+    BUZZER_NOTE_C8SHARP_D8FLAT,  ///< 4434.92 Hz
+    BUZZER_NOTE_D8,              ///< 4698.63 Hz
+    BUZZER_NOTE_D8SHARP_E8FLAT,  ///< 4978.03 Hz
+    BUZZER_NOTE_E8,              ///< 5274.04 Hz
+    BUZZER_NOTE_F8,              ///< 5587.65 Hz
+    BUZZER_NOTE_F8SHARP_G8FLAT,  ///< 5919.91 Hz
+    BUZZER_NOTE_G8,              ///< 6271.93 Hz
+    BUZZER_NOTE_G8SHARP_A8FLAT,  ///< 6644.88 Hz
+    BUZZER_NOTE_A8,              ///< 7040.00 Hz
+    BUZZER_NOTE_A8SHARP_B8FLAT,  ///< 7458.62 Hz
+    BUZZER_NOTE_B8,              ///< 7902.13 Hz
+    BUZZER_NOTE_REST             ///< no sound
+} BuzzerNote;
+
+/** @brief Plays the given note for a set duration.
+  * @param note The note you wish to play, or BUZZER_NOTE_REST to disable output for the given duration.
+  * @param duration_ms The duration of the note.
+  * @note Note that this will block your UI for the duration of the note's play time, and it will
+  *       after this call, the buzzer period will be set to the period of this note.
+  */
+void watch_buzzer_play_note(BuzzerNote note, uint16_t duration_ms);
+
+/// @brief An array of periods for all the notes on a piano, corresponding to the names in BuzzerNote.
+extern const uint16_t NotePeriods[108];
+
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_deepsleep.h b/watch-library/shared/watch/watch_deepsleep.h
new file mode 100644
index 00000000..56d75478
--- /dev/null
+++ b/watch-library/shared/watch/watch_deepsleep.h
@@ -0,0 +1,159 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_DEEPSLEEP_H_INCLUDED
+#define _WATCH_DEEPSLEEP_H_INCLUDED
+////< @file watch_deepsleep.h
+
+#include "watch.h"
+
+// These are declared in watch_rtc.c.
+extern ext_irq_cb_t btn_alarm_callback;
+extern ext_irq_cb_t a2_callback;
+extern ext_irq_cb_t a4_callback;
+
+/** @addtogroup deepsleep Sleep Control
+  * @brief This section covers functions related to the various sleep modes available to the watch,
+  *        including Sleep, Deep Sleep, and BACKUP mode.
+  * @details These terms changed meaning a bit over the course of development; if you are coming
+  *          to this documentation after having worked with an earlier version of the library,
+  *          these definitions should clarify the terminology. Terms in all caps are modes of the
+  *          SAM L22; terms in Title Case are specific implementations in this library.
+  *           - ACTIVE mode is the mode the SAM L22 is in when both the main clock and the CPU are
+  *             running. It is the most power-hungry mode. If you ever call delay_ms to wait a beat,
+  *             the watch will remain in ACTIVE mode while taking that delay. In addition, whenever
+  *             your `app_loop` function returns false, the device will remain in ACTIVE mode and
+  *             call your `app_loop` function again.
+  *           - STANDBY mode turns off the main clock and halts the CPU. Since the PWM driver is
+  *             run from the main clock, it also stops the buzzer and any dimming of the LEDs.
+  *             In this mode, the watch can wake from any interrupt source. Whenever your `app_loop`
+  *             function returns true, the watch enters STANDBY mode until the next tick or other
+  *             interrupt. This mode uses much less power than ACTIVE mode.
+  *           - Sleep Mode is a special case of STANDBY mode. In this mode, the watch turns off
+  *             almost all peripherals (including the external interrupt controller), and disables
+  *             all pins except for the external wake pins. In this mode the watch can only wake
+  *             from the RTC alarm interrupt or an external wake pin (A2, A4 or the alarm button),
+  *             but the display remains on and your app's state is retained. You can enter this
+  *             mode by calling `watch_enter_sleep_mode`. It consumes an order of magnitude less
+  *             power than STANDBY mode.
+  *           - Deep Sleep Mode is identical to sleep mode, but it also turns off the LCD to save
+  *             a bit more power. You can enter this mode by calling `watch_enter_deep_sleep_mode`.
+  *           - BACKUP mode is the lowest possible power mode on the SAM L22. It turns off all pins
+  *             and peripherals except for the RTC. It also turns off the RAM, obliterating your
+  *             application's state. The only way to wake from this mode is by setting an external
+  *             wake interrupt on pin A2 or pin A4, and when you do wake it will be much like a
+  *             wake from reset. You can enter this mode by calling `watch_enter_backup_mode`.
+  */
+/// @{
+
+/** @brief Registers a callback on one of the RTC's external wake pins, which can wake the device
+  *        from Sleep, Deep Sleep and BACKUP modes (but see warning re: BACKUP mode).
+  * @param pin Either pin BTN_ALARM, A2, or A4. These are the three external wake pins. If the pin
+  *            is BTN_ALARM, this function also enables an internal pull down on that pin.
+  * @param callback The callback to be called if this pin triggers outside of BACKUP mode. If this is
+  *                 NULL, no callback will be called even in normal modes, but the interrupt will
+  *                 still be enabled so that it can wake the device.
+  * @param level The level you wish to scan for: true for rising, false for falling. Note that you
+  *              cannot scan for both rising and falling edges like you can with the external interrupt
+  *              pins; with the external wake interrupt, you can only get one or the other.
+  * @note When in ACTIVE, STANDBY and Sleep / Deep sleep modes, this will function much like a standard
+  *       external interrupt situation: these pins will wake the device, and your callback will be
+  *       called. However, if the device enters BACKUP mode and one of these pins wakes the device, your
+  *       callback WILL NOT be called, as the device is basically waking from reset at that point.
+  * @warning As of the current SAM L22 silicon revision (rev B), the BTN_ALARM pin cannot wake the
+  *          device from BACKUP mode. You can still use this function to register a BTN_ALARM interrupt
+  *          in normal or deep sleep mode, but to wake from BACKUP, you will need to use pin A2 or A4.
+  */
+void watch_register_extwake_callback(uint8_t pin, ext_irq_cb_t callback, bool level);
+
+/** @brief Unregisters the RTC interrupt on one of the EXTWAKE pins. This will prevent a value change on
+  *        one of these pins from waking the device.
+  * @param pin Either pin BTN_ALARM, A2, or A4. If the pin is BTN_ALARM, this function DOES NOT disable
+  *            the internal pull down on that pin.
+  */
+void watch_disable_extwake_interrupt(uint8_t pin);
+
+/** @brief Stores data in one of the RTC's backup registers, which retain their data in BACKUP mode.
+  * @param data An unsigned 32 bit integer with the data you wish to store.
+  * @param reg A register from 0-7.
+  */
+void watch_store_backup_data(uint32_t data, uint8_t reg);
+
+/** @brief Gets 32 bits of data from the RTC's BACKUP register.
+  * @param reg A register from 0-7.
+  * @return An unsigned 32 bit integer with the from the backup register.
+  */
+uint32_t watch_get_backup_data(uint8_t reg);
+
+/** @brief enters Sleep Mode by disabling all pins and peripherals except the RTC and the LCD.
+  * @details This sleep mode is not the lowest power mode available, but it has the benefit of allowing you
+  *          to display a message to the user while asleep. You can also set an alarm interrupt to wake at a
+  *          configfurable interval (every minute, hour or day) to update the display. You can wake from this
+  *          mode by pressing the ALARM button, if you registered an extwake callback on the ALARM button.
+  *          Also note that when your app wakes from this sleep mode, your app_setup method will be called
+  *          again, since this function will have disabled things you set up there.
+  *
+  *          Note that to wake from either the ALARM button, the A2 interrupt or the A4 interrupt, you
+  *          must first configure this by calling watch_register_extwake_callback.
+  *
+  *          You can estimate the power consumption of this mode to be on the order of 30 microwatts
+  *          (about 10 µA at 3 V).
+  */
+void watch_enter_sleep_mode(void);
+
+/** @brief enters Deep Sleep Mode by disabling all pins and peripherals except the RTC.
+  * @details Short of BACKUP mode, this is the lowest power mode you can enter while retaining your
+  *          application state (and the ability to wake with the alarm button). Just note that the display
+  *          will be completely off, so you should document to the user of your application that they will
+  *          need to press the alarm button to wake the device, or use a sensor board with support for
+  *          an external wake pin.
+  *
+  *          All notes from watch_enter_sleep_mode apply here, except for power consumption. You can estimate
+  *          the power consumption of this mode to be on the order of 12 microwatts (about 4µA at 3 V).
+  */
+void watch_enter_deep_sleep_mode(void);
+
+/** @brief Enters the SAM L22's lowest-power mode, BACKUP.
+  * @details This function does some housekeeping before entering BACKUP mode. It first disables all pins
+  *          and peripherals except for the RTC, and disables the tick interrupt (since that would wake
+  *          us up from BACKUP mode). Once again, if you wish to wake from the A2 or the A4 interrupt,
+  *          you must first configure this by calling watch_register_extwake_callback.
+  * @note If you have a callback set for an external wake interrupt, it will be called if triggered while
+  *       in ACTIVE, STANDBY, Sleep and Deep Sleep modes, but it *will not be called* when waking from
+  *       BACKUP mode. Waking from backup is effectively like waking from reset, except that your
+  *       @ref app_wake_from_backup function will be called.
+  * @warning On current revisions of the SAM L22 silicon, the ALARM_BTN pin (PA02 RTC/IN2) cannot wake
+  *          the device from deep sleep mode. There is an errata note (Reference: 15010) that says that
+  *          due to a silicon bug, RTC/IN2 is not functional in BACKUP. As a result, you should not call
+  *          this function unless you have a device on the nine-pin connector with an external interrupt
+  *          on pin A2 or A4 (i.e. an accelerometer with an interrupt pin).
+  */
+void watch_enter_backup_mode(void);
+
+__attribute__((deprecated("Use watch_enter_sleep_mode or watch_enter_deep_sleep_mode instead")))
+void watch_enter_shallow_sleep(bool display_on);
+
+__attribute__((deprecated("Use watch_enter_backup_mode instead")))
+void watch_enter_deep_sleep(void);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_extint.h b/watch-library/shared/watch/watch_extint.h
new file mode 100644
index 00000000..452461b3
--- /dev/null
+++ b/watch-library/shared/watch/watch_extint.h
@@ -0,0 +1,85 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_EXTINT_H_INCLUDED
+#define _WATCH_EXTINT_H_INCLUDED
+////< @file watch_extint.h
+
+#include "watch.h"
+#include "hal_ext_irq.h"
+
+/** @addtogroup buttons Buttons & External Interrupts
+  * @brief This section covers functions related to the three buttons: Light, Mode and Alarm, as well as
+  *        external interrupts from devices on the nine-pin connector.
+  * @details The buttons are the core input UI of the watch, and the way the user will interact with
+  *          your application. They are active high, pulled down by the microcontroller, and triggered
+  *          when one of the "pushers" brings a tab from the metal frame into contact with the edge
+  *          of the board. Note that the buttons can only wake the watch from STANDBY mode, at least as
+  *          of the current SAM L22 silicon revision. The external interrupt controller runs in STANDBY
+  *          mode, but it does not run in BACKUP mode; to wake from BACKUP, buttons will not cut it.
+  */
+/// @{
+
+///@brief An enum defining the types of interrupt trigger you wish to scan for.
+typedef enum watch_interrupt_trigger {
+    INTERRUPT_TRIGGER_NONE = 0,
+    INTERRUPT_TRIGGER_RISING,
+    INTERRUPT_TRIGGER_FALLING,
+    INTERRUPT_TRIGGER_BOTH,
+} watch_interrupt_trigger;
+
+/// @brief Enables the external interrupt controller.
+void watch_enable_external_interrupts(void);
+
+/// @brief Disables the external interrupt controller.
+void watch_disable_external_interrupts(void);
+
+/** @brief Configures an external interrupt callback on one of the external interrupt pins.
+  * @details You can set one interrupt callback per pin, and you can monitor for a rising condition,
+  *          a falling condition, or both. If you just want to detect a button press, register your
+  *          interrupt with INTERRUPT_TRIGGER_RISING; if you want to detect an active-low interrupt
+  *          signal from a device on the nine-pin connector, use INTERRUPT_TRIGGER_FALLING. If you
+  *          want to detect both rising and falling conditions (i.e. button down and button up), use
+  *          INTERRUPT_TRIGGER_BOTH and use watch_get_pin_level to check the pin level in your callback
+  *          to determine which condition caused the interrupt.
+  * @param pin One of BTN_LIGHT, BTN_MODE, BTN_ALARM, A0, A1, A3 or A4. If the pin parameter matches one of
+  *            the three button pins, this function will also enable an internal pull-down resistor. If
+  *            the pin parameter is A0-A4, you are responsible for setting any required pull configuration
+  *            using watch_enable_pull_up or watch_enable_pull_down.
+  * @param callback The function you wish to have called when the button is pressed.
+  * @param trigger The condition on which you wish to trigger: rising, falling or both.
+  * @note Pins A2 and A4 can also generate interrupts via the watch_register_extwake_callback function, which
+  *       will allow them to trigger even when the watch is in deep sleep mode.
+  * @warning As of now, A2 is not usable via the watch_register_interrupt_callback function. To enable an
+  *          external interrupt on pin A2, use the watch_register_extwake_callback function. This issue will be
+  *          addressed in a future revision of the watch library.
+  */
+void watch_register_interrupt_callback(const uint8_t pin, ext_irq_cb_t callback, watch_interrupt_trigger trigger);
+
+__attribute__((deprecated("Use watch_register_interrupt_callback or watch_register_extwake_callback instead")))
+void watch_register_button_callback(const uint8_t pin, ext_irq_cb_t callback);
+
+__attribute__((deprecated("Use watch_enable_external_interrupts instead")))
+void watch_enable_buttons(void);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_gpio.h b/watch-library/shared/watch/watch_gpio.h
new file mode 100644
index 00000000..fc43642c
--- /dev/null
+++ b/watch-library/shared/watch/watch_gpio.h
@@ -0,0 +1,76 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_GPIO_H_INCLUDED
+#define _WATCH_GPIO_H_INCLUDED
+////< @file watch_gpio.h
+
+#include "watch.h"
+
+/** @addtogroup gpio Digital Input and Output
+  * @brief This section covers functions related to general-purpose input and output signals.
+  */
+/// @{
+/** @brief Configures the selected pin for digital input.
+  * @param pin The pin that you wish to act as an input.
+  */
+void watch_enable_digital_input(const uint8_t pin);
+
+/** @brief Disables any digital input, along with any pull-up or pull-down configuration.
+  * @param pin The pin that you wish to disable.
+  */
+void watch_disable_digital_input(const uint8_t pin);
+
+/** @brief Enables a pull-up resistor on the selected pin.
+  * @param pin The pin that you wish to configure.
+  */
+void watch_enable_pull_up(const uint8_t pin);
+
+/** @brief Enables a pull-down resistor on the selected pin.
+  * @param pin The pin that you wish to configure.
+  */
+void watch_enable_pull_down(const uint8_t pin);
+
+/** @brief Gets the level of the selected pin.
+  * @param pin The pin whose value you wish to read.
+  * @return true if the pin was logic high; otherwise, false.
+  */
+bool watch_get_pin_level(const uint8_t pin);
+
+/** @brief Configures the selected pin for digital output.
+  * @param pin The pin that you wish to act as an output.
+  */
+void watch_enable_digital_output(const uint8_t pin);
+
+/** @brief Disables digital output on the selected pin.
+  * @param pin The pin that you wish disable.
+  */
+void watch_disable_digital_output(const uint8_t pin);
+
+/** @brief Sets the level of the selected pin.
+  * @param pin The pin whose value you wish to set.
+  * @param level The level you wish to set: true for high, false for low.
+  */
+void watch_set_pin_level(const uint8_t pin, const bool level);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_i2c.h b/watch-library/shared/watch/watch_i2c.h
new file mode 100644
index 00000000..fbcc1a92
--- /dev/null
+++ b/watch-library/shared/watch/watch_i2c.h
@@ -0,0 +1,106 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_I2C_H_INCLUDED
+#define _WATCH_I2C_H_INCLUDED
+////< @file watch_i2c.h
+
+#include "watch.h"
+
+/** @addtogroup i2c I2C Controller Driver
+  * @brief This section covers functions related to the SAM L22's built-I2C driver, including
+  *        configuring the I2C bus, putting values directly on the bus and reading data from
+  *        registers on I2C devices.
+  */
+/// @{
+/** @brief Enables the I2C peripheral. Call this before attempting to interface with I2C devices.
+  */
+void watch_enable_i2c(void);
+
+/** @brief Disables the I2C peripheral.
+  */
+void watch_disable_i2c(void);
+
+/** @brief Sends a series of values to a device on the I2C bus.
+  * @param addr The address of the device you wish to talk to.
+  * @param buf A series of unsigned bytes; the data you wish to transmit.
+  * @param length The number of bytes in buf that you wish to send.
+  */
+void watch_i2c_send(int16_t addr, uint8_t *buf, uint16_t length);
+
+/** @brief Receives a series of values from a device on the I2C bus.
+  * @param addr The address of the device you wish to hear from.
+  * @param buf Storage for the incoming bytes; on return, it will contain the received data.
+  * @param length The number of bytes that you wish to receive.
+  */
+void watch_i2c_receive(int16_t addr, uint8_t *buf, uint16_t length);
+
+/** @brief Writes a byte to a register in an I2C device.
+  * @param addr The address of the device you wish to address.
+  * @param reg The register on the device that you wish to set.
+  * @param data The value that you wish to set the register to.
+  */
+void watch_i2c_write8(int16_t addr, uint8_t reg, uint8_t data);
+
+/** @brief Reads a byte from a register in an I2C device.
+  * @param addr The address of the device you wish to address.
+  * @param reg The register on the device that you wish to read.
+  * @return An unsigned byte representing the value of the register that was read.
+  */
+uint8_t watch_i2c_read8(int16_t addr, uint8_t reg);
+
+/** @brief Reads an unsigned little-endian word from a register in an I2C device.
+  * @param addr The address of the device you wish to address.
+  * @param reg The register on the device that you wish to read.
+  * @return An unsigned word representing the value of the register that was read.
+  * @note This reads two bytes into the word in bus order. If the device returns
+          the LSB first and then the MSB, you can use this value as returned.
+          If the device returns the data in big-endian order or uses some other
+          kind of fancy bit packing, you may need to shuffle some bits around.
+  */
+uint16_t watch_i2c_read16(int16_t addr, uint8_t reg);
+
+/** @brief Reads three bytes as an unsigned little-endian int from a register in an I2C device.
+  * @param addr The address of the device you wish to address.
+  * @param reg The register on the device that you wish to read.
+  * @return An unsigned word representing the value of the register that was read.
+  * @note This reads three bytes into the word in bus order. If the device returns
+          these bytes LSB first, you can use this value as returned. If there is a
+          sign bit, the device returns the data in big-endian order, or it uses some
+          other kind of fancy bit packing, you may need to shuffle some bits around.
+  */
+uint32_t watch_i2c_read24(int16_t addr, uint8_t reg);
+
+
+/** @brief Reads an unsigned little-endian int from a register in an I2C device.
+  * @param addr The address of the device you wish to address.
+  * @param reg The register on the device that you wish to read.
+  * @return An unsigned word representing the value of the register that was read.
+  * @note This reads three bytes into the word in bus order. If the device returns
+          these bytes LSB first, you can use this value as returned. If the device
+          returns the data in big-endian order, or it uses some other kind of fancy
+          bit packing, you may need to shuffle some bits around.
+  */
+uint32_t watch_i2c_read32(int16_t addr, uint8_t reg);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_led.h b/watch-library/shared/watch/watch_led.h
new file mode 100644
index 00000000..9e9f5640
--- /dev/null
+++ b/watch-library/shared/watch/watch_led.h
@@ -0,0 +1,93 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_LED_H_INCLUDED
+#define _WATCH_LED_H_INCLUDED
+////< @file watch_led.h
+
+#include "watch.h"
+
+/** @addtogroup led LED Control
+  * @brief This section covers functions related to the bi-color red/green LED mounted behind the LCD.
+  * @details The SAM L22 is an exceedingly power efficient chip, whereas the LED's are relatively power-
+  *          hungry. The green LED, at full power, consumes more power than the whole chip in active mode,
+  *          and the red LED consumes about twelve times as much power! The LED's should thus be used only
+  *          sparingly in order to preserve battery life.
+  * @note Some watches use a red/blue LED instead of a red/green LED. You will be able to determine this
+  *       easily when you double tap the reset button: if the pulsing bootloader LED is red, you have a
+  *       red/green edition; if it is blue, you have a red/blue edition. For red/blue watches, build your
+  *       project with the command `make LED=BLUE`, and the watch library will automatically swap the pins
+  *       so that watch_set_led_red sets the red LED, and watch_set_led_green sets the blue one.
+  */
+/// @{
+/** @brief Enables the bi-color LED.
+  * @note The TCC peripheral that drives the LEDs does not run in STANDBY mode — but the outputs do! This
+  *       means that if you set either red, green or both LEDs to full power, they will shine even when
+  *       your app is asleep. If, however, you set a custom color using watch_set_led_color, the color will
+  *       not display correctly in STANDBY mode. You will need to keep your app running while the LED is on.
+  */
+void watch_enable_leds(void);
+
+/** @brief Disables the LEDs.
+  * @note This method will also disable the buzzer, since the buzzer and LED both make use of the same
+  *       peripheral to drive their PWM behavior.
+  */
+void watch_disable_leds(void);
+
+/** @brief Sets the LED to a custom color by modulating each output's duty cycle.
+  * @param red The red value from 0-255.
+  * @param green The green value from 0-255. If your watch has a red/blue LED, this will be the blue value.
+  * @note If you are displaying a custom color, you will need to prevent your app from going to sleep
+  *       while the LED is on; otherwise, the color will not display correctly. You can do this by
+  *       returning false in your app_loop method.
+  */
+void watch_set_led_color(uint8_t red, uint8_t green);
+
+/** @brief Sets the red LED to full brightness, and turns the green LED off.
+  * @details Of the two LED's in the RG bi-color LED, the red LED is the less power-efficient one (~4.5 mA).
+  */
+void watch_set_led_red(void);
+
+/** @brief Sets the green LED to full brightness, and turns the red LED off.
+  * @details Of the two LED's in the RG bi-color LED, the green LED is the more power-efficient one (~0.44 mA).
+  * @note If your watch has a red/blue LED, this method will set the LED to blue.
+  */
+void watch_set_led_green(void);
+
+/** @brief Sets both red and green LEDs to full brightness.
+  * @details The total current draw between the two LED's in this mode will be ~5 mA, which is more than the
+  *          watch draws in any other mode. Take care not to drain the battery.
+  * @note If your watch has a red/blue LED, this method will set the LED to pink.
+  */
+void watch_set_led_yellow(void);
+
+/** @brief Turns both the red and the green LEDs off. */
+void watch_set_led_off(void);
+
+__attribute__((deprecated("Use watch_enable_leds instead")))
+void watch_enable_led(bool unused);
+
+__attribute__((deprecated("Use watch_disable_leds instead")))
+void watch_disable_led(bool unused);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_private.h b/watch-library/shared/watch/watch_private.h
new file mode 100644
index 00000000..7bb91d1f
--- /dev/null
+++ b/watch-library/shared/watch/watch_private.h
@@ -0,0 +1,50 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_PRIVATE_H_INCLUDED
+#define _WATCH_PRIVATE_H_INCLUDED
+
+#include "watch.h"
+
+/// Called by main.c while setting up the app. You should not call this from your app.
+void _watch_init(void);
+
+/// Initializes the real-time clock peripheral.
+void _watch_rtc_init(void);
+
+/// Called by buzzer and LED setup functions. You should not call this from your app.
+void _watch_enable_tcc(void);
+
+/// Called by buzzer and LED teardown functions. You should not call this from your app.
+void _watch_disable_tcc(void);
+
+/// Called by main.c if plugged in to USB. You should not call this from your app.
+void _watch_enable_usb(void);
+
+// this function ends up getting called by printf to log stuff to the USB console.
+int _write(int file, char *ptr, int len);
+
+// this method could be overridden to read stuff from the USB console? but no need rn.
+int _read(void);
+
+#endif
diff --git a/watch-library/shared/watch/watch_private_display.c b/watch-library/shared/watch/watch_private_display.c
new file mode 100644
index 00000000..87e3f1ae
--- /dev/null
+++ b/watch-library/shared/watch/watch_private_display.c
@@ -0,0 +1,137 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include "watch_slcd.h"
+#include "watch_private_display.h"
+
+static const uint32_t IndicatorSegments[] = {
+    SLCD_SEGID(0, 17), // WATCH_INDICATOR_SIGNAL
+    SLCD_SEGID(0, 16), // WATCH_INDICATOR_BELL
+    SLCD_SEGID(2, 17), // WATCH_INDICATOR_PM
+    SLCD_SEGID(2, 16), // WATCH_INDICATOR_24H
+    SLCD_SEGID(1, 10), // WATCH_INDICATOR_LAP
+};
+
+void watch_display_character(uint8_t character, uint8_t position) {
+    // special cases for positions 4 and 6
+    if (position == 4 || position == 6) {
+        if (character == '7') character = '&'; // "lowercase" 7
+        else if (character == 'A') character = 'a'; // A needs to be lowercase
+        else if (character == 'o') character = 'O'; // O needs to be uppercase
+        else if (character == 'L') character = '!'; // L needs to be in top half
+        else if (character == 'M' || character == 'm' || character == 'N') character = 'n'; // M and uppercase N need to be lowercase n
+        else if (character == 'c') character = 'C'; // C needs to be uppercase
+        else if (character == 'J') character = 'j'; // same
+        else if (character == 'v' || character == 'V' || character == 'U' || character == 'W' || character == 'w') character = 'u'; // bottom segment duplicated, so show in top half
+    } else {
+        if (character == 'u') character = 'v'; // we can use the bottom segment; move to lower half
+        else if (character == 'j') character = 'J'; // same but just display a normal J
+    }
+    if (position > 1) {
+        if (character == 'T') character = 't'; // uppercase T only works in positions 0 and 1
+    }
+    if (position == 1) {
+        if (character == 'o') character = 'O'; // O needs to be uppercase
+        if (character == 'i') character = 'l'; // I needs to be uppercase (use an l, it looks the same)
+        if (character == 'n') character = 'N'; // N needs to be uppercase
+        if (character == 'r') character = 'R'; // R needs to be uppercase
+        if (character == 'd') character = 'D'; // D needs to be uppercase
+        if (character == 'v' || character == 'V' || character == 'u') character = 'U'; // side segments shared, make uppercase
+        if (character == 'b') character = 'B'; // B needs to be uppercase
+        if (character == 'c') character = 'C'; // C needs to be uppercase
+    } else {
+        if (character == 'R') character = 'r'; // R needs to be lowercase almost everywhere
+    }
+    if (position == 0) {
+        watch_clear_pixel(0, 15); // clear funky ninth segment
+    } else {
+        if (character == 'I') character = 'l'; // uppercase I only works in position 0
+    }
+
+    uint64_t segmap = Segment_Map[position];
+    uint64_t segdata = Character_Set[character - 0x20];
+
+    for (int i = 0; i < 8; i++) {
+        uint8_t com = (segmap & 0xFF) >> 6;
+        if (com > 2) {
+            // COM3 means no segment exists; skip it.
+            segmap = segmap >> 8;
+            segdata = segdata >> 1;
+            continue;
+        }
+        uint8_t seg = segmap & 0x3F;
+        watch_clear_pixel(com, seg);
+        if (segdata & 1) watch_set_pixel(com, seg);
+        segmap = segmap >> 8;
+        segdata = segdata >> 1;
+    }
+
+    if (character == 'T' && position == 1) watch_set_pixel(1, 12); // add descender
+    else if (position == 0 && (character == 'B' || character == 'D')) watch_set_pixel(0, 15); // add funky ninth segment
+    else if (position == 1 && (character == 'B' || character == 'D' || character == '@')) watch_set_pixel(0, 12); // add funky ninth segment
+}
+
+void watch_display_string(char *string, uint8_t position) {
+    size_t i = 0;
+    while(string[i] != 0) {
+        watch_display_character(string[i], position + i);
+        i++;
+        if (position + i >= Num_Chars) break;
+    }
+    // uncomment this line to see screen output on terminal, i.e.
+    //   FR  29
+    // 11 50 23
+    // note that for partial displays (positon > 0) it will only show the characters that were updated.
+    // printf("________\n  %c%c  %c%c\n%c%c %c%c %c%c\n--------\n", (position > 0) ? ' ' : string[0], (position > 1) ? ' ' : string[1 - position], (position > 2) ? ' ' : string[2 - position], (position > 3) ? ' ' : string[3 - position], (position > 4) ? ' ' : string[4 - position], (position > 5) ? ' ' : string[5 - position], (position > 6) ? ' ' : string[6 - position], (position > 7) ? ' ' : string[7 - position], (position > 8) ? ' ' : string[8 - position], (position > 9) ? ' ' : string[9 - position]);
+}
+
+void watch_set_colon(void) {
+    watch_set_pixel(1, 16);
+}
+
+void watch_clear_colon(void) {
+    watch_clear_pixel(1, 16);
+}
+
+void watch_set_indicator(WatchIndicatorSegment indicator) {
+    uint32_t value = IndicatorSegments[indicator];
+    uint8_t com = SLCD_COMNUM(value);
+    uint8_t seg = SLCD_SEGNUM(value);
+    watch_set_pixel(com, seg);
+}
+
+void watch_clear_indicator(WatchIndicatorSegment indicator) {
+    uint32_t value = IndicatorSegments[indicator];
+    uint8_t com = SLCD_COMNUM(value);
+    uint8_t seg = SLCD_SEGNUM(value);
+    watch_clear_pixel(com, seg);
+}
+
+void watch_clear_all_indicators(void) {
+    watch_clear_pixel(2, 17);
+    watch_clear_pixel(2, 16);
+    watch_clear_pixel(0, 17);
+    watch_clear_pixel(0, 16);
+    watch_clear_pixel(1, 10);
+}
diff --git a/watch-library/shared/watch/watch_private_display.h b/watch-library/shared/watch/watch_private_display.h
new file mode 100644
index 00000000..08597848
--- /dev/null
+++ b/watch-library/shared/watch/watch_private_display.h
@@ -0,0 +1,146 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_PRIVATE_DISPLAY_H_INCLUDED
+#define _WATCH_PRIVATE_DISPLAY_H_INCLUDED
+
+#include "hpl_slcd_config.h"
+#include "driver_init.h"
+
+static const uint8_t Character_Set[] =
+{
+    0b00000000, //  
+    0b01100000, // ! (L in the top half for positions 4 and 6)
+    0b00100010, // "
+    0b01100011, // # (degree symbol, hash mark doesn't fit)
+    0b00000000, // $ (unused)
+    0b00000000, // % (unused)
+    0b01000100, // & ("lowercase 7" for positions 4 and 6)
+    0b00100000, // '
+    0b00111001, // (
+    0b00001111, // )
+    0b00000000, // * (unused)
+    0b11000000, // + (only works in position 0)
+    0b00000100, // ,
+    0b01000000, // -
+    0b01000000, // . (same as -, semantically most useful)
+    0b00010010, // /
+    0b00111111, // 0
+    0b00000110, // 1
+    0b01011011, // 2
+    0b01001111, // 3
+    0b01100110, // 4
+    0b01101101, // 5
+    0b01111101, // 6
+    0b00000111, // 7
+    0b01111111, // 8
+    0b01101111, // 9
+    0b00000000, // : (unused)
+    0b00000000, // ; (unused)
+    0b01011000, // <
+    0b01001000, // =
+    0b01001100, // >
+    0b01010011, // ?
+    0b11111111, // @ (all segments on)
+    0b01110111, // A
+    0b01111111, // B
+    0b00111001, // C
+    0b00111111, // D
+    0b01111001, // E
+    0b01110001, // F
+    0b00111101, // G
+    0b01110110, // H
+    0b10001001, // I (only works in position 0)
+    0b00001110, // J
+    0b01110101, // K
+    0b00111000, // L
+    0b10110111, // M (only works in position 0)
+    0b00110111, // N
+    0b00111111, // O
+    0b01110011, // P
+    0b01100111, // Q
+    0b11110111, // R (only works in position 1)
+    0b01101101, // S
+    0b10000001, // T (only works in position 0; set (1, 12) to make it work in position 1)
+    0b00111110, // U
+    0b00111110, // V
+    0b10111110, // W (only works in position 0)
+    0b01111110, // X
+    0b01101110, // Y
+    0b00011011, // Z
+    0b00111001, // [
+    0b00100100, // backslash
+    0b00001111, // ]
+    0b00100011, // ^
+    0b00001000, // _
+    0b00000010, // `
+    0b01011111, // a
+    0b01111100, // b
+    0b01011000, // c
+    0b01011110, // d
+    0b01111011, // e
+    0b01110001, // f
+    0b01101111, // g
+    0b01110100, // h
+    0b00010000, // i
+    0b01000010, // j (appears as superscript to work in more positions)
+    0b01110101, // k
+    0b00110000, // l
+    0b10110111, // m (only works in position 0)
+    0b01010100, // n
+    0b01011100, // o
+    0b01110011, // p
+    0b01100111, // q
+    0b01010000, // r
+    0b01101101, // s
+    0b01111000, // t
+    0b01100010, // u (appears in (u)pper half to work in more positions)
+    0b00011100, // v (looks like u but in the lower half)
+    0b10111110, // w (only works in position 0)
+    0b01111110, // x
+    0b01101110, // y
+    0b00011011, // z
+    0b00111001, // {
+    0b00110000, // |
+    0b00001111, // }
+    0b00000001, // ~
+};
+
+static const uint64_t Segment_Map[] = {
+    0x4e4f0e8e8f8d4d0d, // Position 0, mode
+    0xc8c4c4c8b4b4b0b,  // Position 1, mode (Segments B and C shared, as are segments E and F)
+    0xc049c00a49890949, // Position 2, day of month (Segments A, D, G shared; missing segment F)
+    0xc048088886874707, // Position 3, day of month
+    0xc053921252139352, // Position 4, clock hours (Segments A and D shared)
+    0xc054511415559594, // Position 5, clock hours
+    0xc057965616179716, // Position 6, clock minutes (Segments A and D shared)
+    0xc041804000018a81, // Position 7, clock minutes
+    0xc043420203048382, // Position 8, clock seconds
+    0xc045440506468584, // Position 9, clock seconds
+};
+
+static const uint8_t Num_Chars = 10;
+
+void watch_display_character(uint8_t character, uint8_t position);
+
+#endif
diff --git a/watch-library/shared/watch/watch_rtc.h b/watch-library/shared/watch/watch_rtc.h
new file mode 100644
index 00000000..6dac63f5
--- /dev/null
+++ b/watch-library/shared/watch/watch_rtc.h
@@ -0,0 +1,164 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_RTC_H_INCLUDED
+#define _WATCH_RTC_H_INCLUDED
+////< @file watch_rtc.h
+
+#include "watch.h"
+#include "hpl_calendar.h"
+
+/** @addtogroup rtc Real-Time Clock
+  * @brief This section covers functions related to the SAM L22's real-time clock peripheral, including
+  *        date, time and alarm functions.
+  * @details The real-time clock is the only peripheral that main.c enables for you. It is the cornerstone
+  *          of low power operation on the watch, and it is required for several key functions that we
+  *          assume will be available, namely the wake from BACKUP mode and the callback on the ALARM button.
+  *          It is also required for the operation of the 1 Hz tick interrupt, which you will most likely use
+  *          to wake from STANDBY mode.
+  */
+/// @{
+
+#define WATCH_RTC_REFERENCE_YEAR (2020)
+
+typedef union {
+    struct {
+        uint32_t second : 6;    // 0-59
+        uint32_t minute : 6;    // 0-59
+        uint32_t hour : 5;      // 0-23
+        uint32_t day : 5;       // 1-31
+        uint32_t month : 4;     // 1-12
+        uint32_t year : 6;      // 0-63 (representing 2020-2083)
+    } unit;
+    uint32_t reg;               // the bit-packed value as expected by the RTC peripheral's CLOCK register.
+} watch_date_time;
+
+typedef enum watch_rtc_alarm_match {
+    ALARM_MATCH_DISABLED = 0,
+    ALARM_MATCH_SS,
+    ALARM_MATCH_MMSS,
+    ALARM_MATCH_HHMMSS,
+} watch_rtc_alarm_match;
+
+/** @brief Called by main.c to check if the RTC is enabled.
+  * You may call this function, but outside of app_init, it should always return true.
+  */
+bool _watch_rtc_is_enabled(void);
+
+/** @brief Sets the date and time.
+  * @param date_time The date and time you wish to set, with a year value from 0-63 representing 2020-2083.
+  * @note The SAM L22 stores the year as six bits representing a value from 0 to 63. It treats this as a year
+  *       offset from a reference year, which must be a leap year. Since 2020 was a leap year, and it allows
+  *       useful dates through 2083, it is assumed that watch apps will use 2020 as the reference year; thus
+  *       1 means 2021, 2 means 2022, etc. **You will be responsible for handling this offset in your code**,
+  *       if the calendar year is needed for timestamp calculation logic or display purposes.
+  */
+void watch_rtc_set_date_time(watch_date_time date_time);
+
+/** @brief Returns the date and time.
+  * @return A watch_date_time with the current date and time, with a year value from 0-63 representing 2020-2083.
+  * @see watch_rtc_set_date_time for notes about how the year is stored.
+  */
+watch_date_time watch_rtc_get_date_time(void);
+
+/** @brief Registers an alarm callback that will be called when the RTC time matches the target time, as masked
+  *        by the provided mask.
+  * @param callback The function you wish to have called when the alarm fires. If this value is NULL, the alarm
+  *                 interrupt will still be enabled, but no callback function will be called.
+  * @param alarm_time The time that you wish to match. The date is currently ignored.
+  * @param mask One of the values in watch_rtc_alarm_match indicating which values to check.
+  * @details The alarm interrupt is a versatile tool for scheduling events in the future, especially since it can
+  *          wake the device from all sleep modes. The key to its versatility is the mask parameter.
+  *          Suppose we set an alarm for midnight, 00:00:00.
+  *           * if mask is ALARM_MATCH_SS, the alarm will fire every minute when the clock ticks to seconds == 0.
+  *           * with ALARM_MATCH_MMSS, the alarm will once an hour, at the top of each hour.
+  *           * with ALARM_MATCH_HHMMSS, the alarm will fire at midnight every day.
+  *          In theory the SAM L22's alarm function can match on days, months and even years, but I have not had
+  *          success with this yet; as such, I am omitting these options for now.
+  */
+void watch_rtc_register_alarm_callback(ext_irq_cb_t callback, watch_date_time alarm_time, watch_rtc_alarm_match mask);
+
+/** @brief Disables the alarm callback.
+  */
+void watch_rtc_disable_alarm_callback(void);
+
+/** @brief Registers a "tick" callback that will be called once per second.
+  * @param callback The function you wish to have called when the clock ticks. If you pass in NULL, the tick
+  *                 interrupt will still be enabled, but no callback function will be called.
+  * @note this is equivalent to calling watch_rtc_register_periodic_callback with a frequency of 1. It can be
+  *       disabled with either watch_rtc_disable_tick_callback() or watch_rtc_disable_periodic_callback(1),
+  *       and will also be disabled when watch_rtc_disable_all_periodic_callbacks is called.
+  */
+void watch_rtc_register_tick_callback(ext_irq_cb_t callback);
+
+/** @brief Disables the tick callback for the given period.
+  */
+void watch_rtc_disable_tick_callback(void);
+
+/** @brief Registers a callback that will be called at a configurable period.
+  * @param callback The function you wish to have called at the specified period. If you pass in NULL, the periodic
+  *                 interrupt will still be enabled, but no callback function will be called.
+  * @param frequency The frequency of the tick in Hz. **Must be a power of 2**, from 1 to 128 inclusive.
+  * @note A 1 Hz tick (@see watch_rtc_register_tick_callback) is suitable for most applications, in that it gives you a
+  *       chance to update the display once a second — an ideal update rate for a watch! If however you are displaying
+  *       a value (such as an accelerometer output) that updates more frequently than once per second, you may want to
+  *       tick at 16 or 32 Hz to update the screen more quickly. Just remember that the more frequent the tick, the more
+  *       power your app will consume. Ideally you should enable the fast tick only when the user requires it (i.e. in
+  *       response to an input event), and move back to the slow tick after some time.
+  *
+  *       Also note that the RTC peripheral does not have sub-second resolution, so even if you set a 2 or 4 Hz interval,
+  *       the system will not have any way of telling you where you are within a given second; watch_rtc_get_date_time
+  *       will return the exact same timestamp until the second ticks over.
+  */
+void watch_rtc_register_periodic_callback(ext_irq_cb_t callback, uint8_t frequency);
+
+/** @brief Disables the tick callback for the given period.
+  * @param frequency The frequency of the tick you wish to disable, in Hz. **Must be a power of 2**, from 1 to 128.
+  */
+void watch_rtc_disable_periodic_callback(uint8_t frequency);
+
+/** @brief Disables all periodic callbacks, including the once-per-second tick callback.
+  */
+void watch_rtc_disable_all_periodic_callbacks(void);
+
+/** @brief Sets the system date and time.
+  * @param date_time A struct representing the date and time you wish to set.
+  */
+__attribute__((deprecated("Use watch_rtc_set_date_time function instead")))
+void watch_set_date_time(struct calendar_date_time date_time);
+
+/** @brief Returns the system date and time in the provided struct.
+  * @param date_time A pointer to a calendar_date_time struct. It will have with the correct date and time on return.
+  */
+__attribute__((deprecated("Use the watch_rtc_get_date_time function instead")))
+void watch_get_date_time(struct calendar_date_time *date_time);
+
+/** @brief Registers a "tick" callback that will be called once per second.
+  * @param callback The function you wish to have called when the clock ticks. If you pass in NULL, the tick
+  *                 interrupt will still be enabled, but no callback function will be called.
+  */
+__attribute__((deprecated("Use the watch_rtc_register_tick_callback function instead")))
+void watch_register_tick_callback(ext_irq_cb_t callback);
+
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_slcd.h b/watch-library/shared/watch/watch_slcd.h
new file mode 100644
index 00000000..3f550bb0
--- /dev/null
+++ b/watch-library/shared/watch/watch_slcd.h
@@ -0,0 +1,151 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_SLCD_H_INCLUDED
+#define _WATCH_SLCD_H_INCLUDED
+////< @file watch_slcd.h
+
+#include "watch.h"
+
+/** @addtogroup slcd Segment LCD Display
+  * @brief This section covers functions related to the Segment LCD display driver, which is responsible
+  *        for displaying strings of characters and indicators on the main watch display.
+  * @details The segment LCD controller consumes about 3 microamperes of power with no segments on, and
+  *          about 4 microamperes with all segments on. There is also a slight power impact associated
+  *          with updating the screen (about 1 microampere to update at 1 Hz). For the absolute lowest
+  *          power operation, update the display only when its contents have changed, and disable the
+  *          SLCD peripheral when the screen is not in use.
+  *          For a map of all common and segment pins, see <a href="segmap.html">segmap.html</a>. You can
+  *          hover over any segment in that diagram to view the common and segment pins associated with
+  *          each segment of the display.
+  */
+/// @{
+
+/// An enum listing the icons and indicators available on the watch.
+typedef enum WatchIndicatorSegment {
+    WATCH_INDICATOR_SIGNAL = 0, ///< The hourly signal indicator; also useful for indicating that sensors are on.
+    WATCH_INDICATOR_BELL,       ///< The small bell indicating that an alarm is set.
+    WATCH_INDICATOR_PM,         ///< The PM indicator, indicating that a time is in the afternoon.
+    WATCH_INDICATOR_24H,        ///< The 24H indicator, indicating that the watch is in a 24-hour mode.
+    WATCH_INDICATOR_LAP         ///< The LAP indicator; the F-91W uses this in its stopwatch UI.
+} WatchIndicatorSegment;
+
+/** @brief Enables the Segment LCD display.
+  * Call this before attempting to set pixels or display strings.
+  */
+void watch_enable_display(void);
+
+/** @brief Sets a pixel. Use this to manually set a pixel with a given common and segment number.
+  *        See <a href="segmap.html">segmap.html</a>.
+  * @param com the common pin, numbered from 0-2.
+  * @param seg the segment pin, numbered from 0-23.
+  */
+void watch_set_pixel(uint8_t com, uint8_t seg);
+
+/** @brief Clears a pixel. Use this to manually clear a pixel with a given common and segment number.
+  *        See <a href="segmap.html">segmap.html</a>.
+  * @param com the common pin, numbered from 0-2.
+  * @param seg the segment pin, numbered from 0-23.
+  */
+void watch_clear_pixel(uint8_t com, uint8_t seg);
+
+/** @brief Clears all segments of the display, including incicators and the colon.
+  */
+void watch_clear_display(void);
+
+/** @brief Displays a string at the given position, starting from the top left. There are ten digits.
+           A space in any position will clear that digit.
+  * @param string A null-terminated string.
+  * @param position The position where you wish to start displaying the string. The day of week digits
+  *                 are positions 0 and 1; the day of month digits are positions 2 and 3, and the main
+  *                 clock line occupies positions 4-9.
+  * @note This method does not clear the display; if for example you display a two-character string at
+          position 0, positions 2-9 will retain whatever state they were previously displaying.
+  */
+void watch_display_string(char *string, uint8_t position);
+
+/** @brief Turns the colon segment on.
+  */
+void watch_set_colon(void);
+
+/** @brief Turns the colon segment off.
+  */
+void watch_clear_colon(void);
+
+/** @brief Sets an indicator on the LCD. Use this to turn on one of the indicator segments.
+  * @param indicator One of the indicator segments from the enum. @see WatchIndicatorSegment
+  */
+void watch_set_indicator(WatchIndicatorSegment indicator);
+
+/** @brief Clears an indicator on the LCD. Use this to turn off one of the indicator segments.
+  * @param indicator One of the indicator segments from the enum. @see WatchIndicatorSegment
+  */
+void watch_clear_indicator(WatchIndicatorSegment indicator);
+
+/** @brief Clears all indicator segments.
+  * @see WatchIndicatorSegment
+  */
+void watch_clear_all_indicators(void);
+
+/** @brief Blinks a single character in position 7. Does not affect other positions.
+  * @details Six of the seven segments in position 7 (and only position 7) are capable of autonomous
+  *          blinking. This blinking does not require any CPU resources, and will continue even in
+  *          STANDBY and Sleep mode (but not Deep Sleep mode, since that mode turns off the LCD).
+  * @param character The character you wish to blink.
+  * @param duration The duration of the on/off cycle in milliseconds, from 50 to ~4250 ms.
+  * @note Segment B of position 7 cannot blink autonomously, so not all characters will work well.
+  *       Supported characters for blinking:
+  *        * Punctuation: underscore, apostrophe, comma, hyphen, equals sign, tilde (top segment only)
+  *        * Numbers: 5, 6, ampersand (lowercase 7)
+  *        * Letters: b, C, c, E, F, h, i, L, l, n, o, S, t
+  */
+void watch_start_character_blink(char character, uint32_t duration);
+
+/** @brief Stops and clears all blinking segments.
+  * @details This will stop all blinking in position 7, and clear all segments in that digit.
+  */
+void watch_stop_blink(void);
+
+/** @brief Begins a two-segment "tick-tock" animation in position 8.
+  * @details Six of the seven segments in position 8 (and only position 8) are capable of autonomous
+  *          animation. This animation is very basic, and consists of moving a bit pattern forward
+  *          or backward in a shift register whose positions map to fixed segments on the LCD. Given
+  *          this constraint, an animation across all six segments does not make sense; so the watch
+  *          library offers only a simple "tick/tock" in segments D and E. This animation does not
+  *          require any CPU resources, and will continue even in STANDBY and Sleep mode (but not Deep
+  *          Sleep mode, since that mode turns off the LCD).
+  * @param duration The duration of each frame in ms. 500 milliseconds produces a classic tick/tock.
+  */
+void watch_start_tick_animation(uint32_t duration);
+
+/** @brief Checks if the tick animation is currently running.
+  * @return true if the animation is running; false otherwise.
+  */
+bool watch_tick_animation_is_running(void);
+
+/** @brief Stops the tick/tock animation and clears all animating segments.
+  * @details This will stop the animation and clear all segments in position 8.
+  */
+void watch_stop_tick_animation(void);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_uart.h b/watch-library/shared/watch/watch_uart.h
new file mode 100644
index 00000000..3e98bd35
--- /dev/null
+++ b/watch-library/shared/watch/watch_uart.h
@@ -0,0 +1,58 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2020 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+#ifndef _WATCH_UART_H_INCLUDED
+#define _WATCH_UART_H_INCLUDED
+////< @file watch_uart.h
+
+#include "watch.h"
+
+/** @addtogroup debug Debug UART
+  * @brief This section covers functions related to the debug UART, available on
+  *        pin D1 of the 9-pin connector.
+  * @warning These functions were used early on in development, before the TinyUSB
+  *          CDC was implemented. You can now print debug messages to the USB console
+  *          using printf, rendering this bit irrelevant. These methods will likely
+  *          be refactored out in the future, in favor of a more full-featured UART
+  *          on the nine-pin connector.
+  **/
+/// @{
+/** @brief Initializes the debug UART.
+  * @param baud The baud rate
+  */
+__attribute__((deprecated("Use printf to log debug messages over USB.")))
+void watch_enable_debug_uart(uint32_t baud);
+
+/** @brief Outputs a single character on the debug UART.
+  * @param c The character you wish to output.
+  */
+__attribute__((deprecated("Use printf to log debug messages over USB.")))
+void watch_debug_putc(char c);
+
+/** @brief Outputs a string on the debug UART.
+  * @param s A null-terminated string.
+  */
+__attribute__((deprecated("Use printf to log debug messages over USB.")))
+void watch_debug_puts(char *s);
+/// @}
+#endif
diff --git a/watch-library/shared/watch/watch_utility.c b/watch-library/shared/watch/watch_utility.c
new file mode 100644
index 00000000..835076d9
--- /dev/null
+++ b/watch-library/shared/watch/watch_utility.c
@@ -0,0 +1,172 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#include <math.h>
+#include "watch_utility.h"
+
+const char * watch_utility_get_weekday(watch_date_time date_time) {
+    static const char weekdays[7][3] = {"SA", "SU", "MO", "TU", "WE", "TH", "FR"};
+    date_time.unit.year += 20;
+    if (date_time.unit.month <= 2) {
+        date_time.unit.month += 12;
+        date_time.unit.year--;
+    }
+    return weekdays[(date_time.unit.day + 13 * (date_time.unit.month + 1) / 5 + date_time.unit.year + date_time.unit.year / 4 + 525) % 7];
+}
+
+uint32_t watch_utility_convert_to_unix_time(uint16_t year, uint8_t month, uint8_t day, uint8_t hour, uint8_t minute, uint8_t second, uint32_t utc_offset) {
+    uint16_t DAYS_SO_FAR[] = {
+        0,   // Jan
+        31,  // Feb
+        59,  // March
+        90,  // April
+        120, // May
+        151, // June
+        181, // July
+        212, // August
+        243, // September
+        273, // October
+        304, // November
+        334  // December
+    };
+
+    uint32_t year_adj = year + 4800;
+    uint32_t febs = year_adj - (month <= 2 ? 1 : 0);  /* Februaries since base. */
+    uint32_t leap_days = 1 + (febs / 4) - (febs / 100) + (febs / 400);
+    uint32_t days = 365 * year_adj + leap_days + DAYS_SO_FAR[month - 1] + day - 1;
+    days -= 2472692;  /* Adjust to Unix epoch. */
+
+    uint32_t timestamp = days * 86400;
+    timestamp += hour * 3600;
+    timestamp += minute * 60;
+    timestamp += second;
+    timestamp -= utc_offset;
+
+    return timestamp;
+}
+
+uint32_t watch_utility_date_time_to_unix_time(watch_date_time date_time, uint32_t utc_offset) {
+    return watch_utility_convert_to_unix_time(date_time.unit.year + WATCH_RTC_REFERENCE_YEAR, date_time.unit.month, date_time.unit.day, date_time.unit.hour, date_time.unit.minute, date_time.unit.second, utc_offset);
+}
+
+#define LEAPOCH (946684800LL + 86400*(31+29))
+
+#define DAYS_PER_400Y (365*400 + 97)
+#define DAYS_PER_100Y (365*100 + 24)
+#define DAYS_PER_4Y   (365*4   + 1)
+
+watch_date_time watch_utility_date_time_from_unix_time(uint32_t timestamp, uint32_t utc_offset) {
+    watch_date_time retval;
+    retval.reg = 0;
+    int32_t days, secs;
+    int32_t remdays, remsecs, remyears;
+    int32_t qc_cycles, c_cycles, q_cycles;
+    int32_t years, months;
+    int32_t wday, yday, leap;
+    static const int8_t days_in_month[] = {31,30,31,30,31,31,30,31,30,31,31,29};
+    timestamp += utc_offset;
+
+    secs = timestamp - LEAPOCH;
+    days = secs / 86400;
+    remsecs = secs % 86400;
+    if (remsecs < 0) {
+        remsecs += 86400;
+        days--;
+    }
+
+    wday = (3+days)%7;
+    if (wday < 0) wday += 7;
+
+    qc_cycles = (int)(days / DAYS_PER_400Y);
+    remdays = days % DAYS_PER_400Y;
+    if (remdays < 0) {
+        remdays += DAYS_PER_400Y;
+        qc_cycles--;
+    }
+
+    c_cycles = remdays / DAYS_PER_100Y;
+    if (c_cycles == 4) c_cycles--;
+    remdays -= c_cycles * DAYS_PER_100Y;
+
+    q_cycles = remdays / DAYS_PER_4Y;
+    if (q_cycles == 25) q_cycles--;
+    remdays -= q_cycles * DAYS_PER_4Y;
+
+    remyears = remdays / 365;
+    if (remyears == 4) remyears--;
+    remdays -= remyears * 365;
+
+    leap = !remyears && (q_cycles || !c_cycles);
+    yday = remdays + 31 + 28 + leap;
+    if (yday >= 365+leap) yday -= 365+leap;
+
+    years = remyears + 4*q_cycles + 100*c_cycles + 400*qc_cycles;
+
+    for (months=0; days_in_month[months] <= remdays; months++)
+        remdays -= days_in_month[months];
+
+    years += 2000;
+
+    months += 2;
+    if (months >= 12) {
+        months -=12;
+        years++;
+    }
+
+    if (years < 2020 || years > 2083) return retval;
+    retval.unit.year = years - WATCH_RTC_REFERENCE_YEAR;
+    retval.unit.month = months + 1;
+    retval.unit.day = remdays + 1;
+
+    retval.unit.hour = remsecs / 3600;
+    retval.unit.minute = remsecs / 60 % 60;
+    retval.unit.second = remsecs % 60;
+
+    return retval;
+}
+
+watch_date_time watch_utility_date_time_convert_zone(watch_date_time date_time, uint32_t origin_utc_offset, uint32_t destination_utc_offset) {
+    uint32_t timestamp = watch_utility_date_time_to_unix_time(date_time, origin_utc_offset);
+    return watch_utility_date_time_from_unix_time(timestamp, destination_utc_offset);
+}
+
+float watch_utility_thermistor_temperature(uint16_t value, bool highside, float b_coefficient, float nominal_temperature, float nominal_resistance, float series_resistance) {
+    float reading = (float)value;
+
+    if (highside) {
+        reading = (1023.0 * series_resistance) / (reading / 64.0);
+        reading -= series_resistance;
+    } else {
+        reading = series_resistance / (65535.0 / value - 1.0);
+    }
+
+    reading = reading / nominal_resistance;
+    reading = log(reading);
+    reading /= b_coefficient;
+    reading += 1.0 / (nominal_temperature + 273.15);
+    reading = 1.0 / reading;
+    reading -= 273.15;
+
+    return reading;
+}
diff --git a/watch-library/shared/watch/watch_utility.h b/watch-library/shared/watch/watch_utility.h
new file mode 100644
index 00000000..66af6ed5
--- /dev/null
+++ b/watch-library/shared/watch/watch_utility.h
@@ -0,0 +1,100 @@
+/*
+ * MIT License
+ *
+ * Copyright (c) 2021 Joey Castillo
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in all
+ * copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+#ifndef _WATCH_UTILITY_H_INCLUDED
+#define _WATCH_UTILITY_H_INCLUDED
+////< @file watch_utility.h
+
+#include "watch.h"
+
+/** @addtogroup utility Utility Functions
+  * @brief This section covers various useful functions that don't fit anywhere else.
+  **/
+/// @{
+/** @brief Returns a two-letter weekday for the given timestamp, suitable for display
+  *        in positions 0-1 of the watch face
+  * @param date_time The watch_date_time whose weekday you want.
+  */
+const char * watch_utility_get_weekday(watch_date_time date_time);
+
+/** @brief Returns the UNIX time (seconds since 1970) for a given date/time in UTC.
+  * @param date_time The watch_date_time that you wish to convert.
+  * @param year The year of the date you wish to convert.
+  * @param month The month of the date you wish to convert.
+  * @param day The day of the date you wish to convert.
+  * @param hour The hour of the date you wish to convert.
+  * @param minute The minute of the date you wish to convert.
+  * @param second The second of the date you wish to convert.
+  * @param utc_offset The number of seconds that date_time is offset from UTC, or 0 if the time is UTC.
+  * @return A UNIX timestamp for the given date/time and UTC offset.
+  * @note Implemented by Wesley Ellis (tahnok) and based on BSD-licensed code by Josh Haberman:
+  *       https://blog.reverberate.org/2020/05/12/optimizing-date-algorithms.html
+  */
+uint32_t watch_utility_convert_to_unix_time(uint16_t year, uint8_t month, uint8_t day, uint8_t hour, uint8_t minute, uint8_t second, uint32_t utc_offset);
+
+/** @brief Returns the UNIX time (seconds since 1970) for a given watch_date_time struct.
+  * @param date_time The watch_date_time that you wish to convert.
+  * @param utc_offset The number of seconds that date_time is offset from UTC, or 0 if the time is UTC.
+  * @return A UNIX timestamp for the given watch_date_time and UTC offset.
+  */
+uint32_t watch_utility_date_time_to_unix_time(watch_date_time date_time, uint32_t utc_offset);
+
+/** @brief Returns the UNIX time (seconds since 1970) for a given watch_date_time struct.
+  * @param timestamp The UNIX timestamp that you wish to convert.
+  * @param utc_offset The number of seconds that you wish date_time to be offset from UTC.
+  * @return A watch_date_time for the given UNIX timestamp and UTC offset, or if outside the range that
+  *         watch_date_time can represent, a watch_date_time with all fields set to 0.
+  * @note Adapted from MIT-licensed code from musl, Copyright © 2005-2014 Rich Felker, et al.:
+  *       https://github.com/esmil/musl/blob/1cc81f5cb0df2b66a795ff0c26d7bbc4d16e13c6/src/time/__secs_to_tm.c
+  */
+watch_date_time watch_utility_date_time_from_unix_time(uint32_t timestamp, uint32_t utc_offset);
+
+/** @brief Converts a time from a given time zone to another time zone.
+  * @param date_time The watch_date_time that you wish to convert
+  * @param origin_utc_offset The number of seconds from UTC in the origin time zone
+  * @param destination_utc_offset The number of seconds from UTC in the destination time zone
+  * @return A watch_date_time for the given UNIX timestamp and UTC offset, or if outside the range that
+  *         watch_date_time can represent, a watch_date_time with all fields set to 0.
+  * @note Adapted from MIT-licensed code from musl, Copyright © 2005-2014 Rich Felker, et al.:
+  *       https://github.com/esmil/musl/blob/1cc81f5cb0df2b66a795ff0c26d7bbc4d16e13c6/src/time/__secs_to_tm.c
+  */
+watch_date_time watch_utility_date_time_convert_zone(watch_date_time date_time, uint32_t origin_utc_offset, uint32_t destination_utc_offset);
+
+/** @brief Returns a temperature in degrees Celsius for a given thermistor voltage divider circuit.
+  * @param value The raw analog reading from the thermistor pin (0-65535)
+  * @param highside True if the thermistor is connected to VCC and the series resistor is connected
+  *                 to GND; false if the thermistor is connected to GND and the series resistor is
+  *                 connected to VCC.
+  * @param b_coefficient From your thermistor's data sheet, the B25/85 coefficient. A typical value
+  *                      will be between 2000 and 5000.
+  * @param nominal_temperature From your thermistor's data sheet, the temperature (in Celsius) at
+  *                            which the thermistor's resistance is at its nominal value.
+  * @param nominal_resistance The thermistor's resistance at the nominal temperature.
+  * @param series_resistance The value of the other resistor in the voltage divider.
+  * @note Ported from Adafruit's MIT-licensed CircuitPython thermistor code, (c) 2017 Scott Shawcroft:
+  *       https://github.com/adafruit/Adafruit_CircuitPython_Thermistor/blob/main/adafruit_thermistor.py
+  */
+float watch_utility_thermistor_temperature(uint16_t value, bool highside, float b_coefficient, float nominal_temperature, float nominal_resistance, float series_resistance);
+
+#endif