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ATSAMD21G15 Development Tools

Development Environment

Emulators and Debuggers

Demo & Evaluation Boards

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3rd Party Tools

Tools
MPLAB X INTEGRATED DEVELOPMENT ENVIRONMENT (IDE) ( MPLAB-X-IDE ) MPLAB® X Integrated Development Environment (IDE) is an expandable, highly configurable software program that incorporates powerful tools to help you discover, configure, develop, debug and qualify embedded designs for most of Microchip’s microcontrollers, microprocessors and digital signal controllers. MPLAB X IDE works seamlessly with the MPLAB development ecosystem of software and tools, many of which are completely free. MPLAB X IDE brings a host of features to help you quickly debug your projects and minimize your development time. All of Microchip’s tools can run on Windows®, macOS®, and Linux® operating systems for maximum workstation flexibility. For further information go to: mplab-x-ide Learn More
MPLAB XC32 COMPILER ( MPLAB-XC32 ) Available as free, unrestricted-use downloads, our award-winning MPLAB® XC C Compilers are comprehensive solutions for your project’s software development. Finding the right compiler to support your device is simple: MPLAB XC8 supports all 8-bit PIC® and AVR® microcontrollers (MCUs) MPLAB XC16 supports all 16-bit PIC MCUs and dsPIC® Digital Signal Controllers (DSCs) MPLAB XC32/32++ supports all 32-bit PIC and SAM MCUs and MPUs Learn More
MPLAB CODE CONFIGURATOR ( code-configurator ) MPLAB® Code Configurator (MCC) is a free, graphical programming environment that generates seamless, easy-to-understand C code to be inserted into your project. Using an intuitive interface, it enables and configures a rich set of peripherals and functions specific to your application. MPLAB Code Configurator supports 8-bit, 16-bit and 32-bit PIC® microcontrollers. MCC is incorporated into both the downloadable MPLAB X Integrated Development Environment (IDE) and the cloud-based MPLAB Xpress IDE. Learn More
MPLAB® HARMONY V3 ( MPLAB Harmony v3 ) MPLAB^® Harmony v3 is a fully integrated embedded software development framework that provides flexible and inter-operable software modules to simplify the development of value-added features for 32-bit MCUs and MPUs. It includes the MPLAB Harmony Configurator (MHC) tool, an easy-to-use tool with a GUI that simplifies device setup, library selection, configuration and application development. Learn More
MPLAB-Extensions ( MPLAB-Extensions ) MPLAB® Extensions for Microsoft® Visual Studio Code® (VS Code®) is a collection of VS Code extensions that combines the power of the MPLAB development ecosystem with the versatility of VS Code. Whether you are a new or existing client, MPLAB Extensions for VS Code provides you with a seamless, flexible and efficient development environment with comprehensive support for designs based on our devices. Learn More

Tools
MPLAB® PICkit™ 5 In-Circuit Debugger ( PG164150 ) Did you know that MPLAB® PICkit™ 5 is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code? These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB® PICkit™ 5 in-circuit debugger/programmer enables quick prototyping and portable, production-ready programming for all Microchip devices, including PIC® microcontrollers (MCUs) and dsPIC® Digital Signal Controllers (DSCs), AVR® and SAM devices and Arm® Cortex®-based microprocessors (MPUs). It works alongside the MPLAB X Integrated Development Environment (IDE) to provide a powerful and easy-to-use Graphical User Interface (GUI) for debugging and programming. Alternatively, the MPLAB PICkit 5 in-circuit debugger/programmer can be used stand-alone with the MPLAB Programmer-to-Go (PTG) mobile app, allowing you to connect to the tool from your smartphone via Bluetooth®. With stand-alone programming features accessible from your smartphone, the MPLAB PICkit 5 in-circuit debugger/programmer is a versatile programming companion that lets you prototype and debug your solution and then unplug and bring the device with you to deploy that solution out in the field. The MPLAB PICkit 5 supports a wide variety of interfaces such as four-wire JTAG or Serial Wire Debug (SWD) with streaming UART Virtual Comm Port (VCP), and with the Debugger Adapter Board (AC102015) can use standard connectors for JTAG, SWD, ICSP, and AVR Protocols. With the unique programmer-to-go function, the PICkit 5 can also be powered by the target board and program a default image simply by pressing the button hidden under the logo. You can also connect via Bluetooth using the MPLAB PTG mobile app and browse the micro SD^TM card installed in the tool for a different image and start programming the target board right from the app. Note: The PICKit 5 is compatible with MPLAB X IDE version 6.10 and later. Download Now. Learn More
MPLAB® ICD 5 In-Circuit Debugger/Programmer ( DV164055 ) Did you know that the MPLAB® ICD 5 In-Circuit Debugger/Programmer is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code? These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB^® ICD 5 In-Circuit Debugger/Programmer offers advanced connectivity and power options for developers of designs based on PIC^®, AVR^® and SAM devices and dsPIC^® Digital Signal Controllers (DSCs). It debugs and programs with the powerful and easy-to-use graphical user interface of MPLAB X Integrated Development Environment (IDE). This next-generation tool offers a variety of capabilities and features that you would normally find in more expensive products to speed up your development and reduce your debug time. With its support for Fast Ethernet connectivity and Power over Ethernet Plus (PoE+), the MPLAB ICD 5 Debugger/Programmer offers flexibility and the convenience of remote development while isolating your application from environmental conditions. Whether you're an experienced developer or just starting out, the MPLAB^®ICD 5 In-Circuit Debugger/Programmer will accelerate your development process and help you take your designs to the next level. Learn More
MPLAB® PICkit™ Basic In-Circuit Debugger ( PG164110 ) The MPLAB® PICkit™ Basic is designed to provide an ultra-low-cost, high-performance solution for programming and debugging Microchip PIC® and AVR® MCUs, dsPIC® DSCs, and SAM Arm® Cortex®-M based MCUs and MPUs. Its sleek and lightweight design makes it an ideal tool for a variety of environments, from educational settings to professional development labs. With comprehensive features and robust performance, the MPLAB PICkit Basic ensures that you have the tools you need to develop and debug your projects efficiently and effectively. MPLAB PICkit Basic is compatible with MPLAB X IDE, MPLAB IPE, MPLAB VS Code extensions, and third-party options like IAR Embedded Workbench using the CMSIS-DAP standard. The device offers advanced debugging capabilities and supports various debugging interfaces like 4-wire JTAG and Serial Wire Debug. The tool provides automatic device selection and includes an adapter for ARM Cortex targets. Learn More
MPLAB® ICE 4 In-Circuit Emulator, Programmer and Debugger ( DV244140 ) Did you know that the MPLAB® ICE 4 in-circuit emulator is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code. These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB ICE 4 in-circuit emulator system boosts productivity with feature-rich programming and debugging for PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs). It offers a flexible development environment combined with the capabilities to develop power-efficient code while reducing the debug time. It debugs and programs with a powerful and easy-to-use graphical user interface that uses the latest version of MPLAB X Integrated Development Environment (IDE), version 6.00. The MPLAB ICE 4 in-circuit emulator connects to a host PC using a SuperSpeed USB 3.0 interface and easy-to-use wireless connectivity options for much greater flexibility. By using Ethernet or Wi-Fi® access point interfaces, you can enable wireless connection to the tool for debugging, programming and more. At one end, the MPLAB ICE 4 in-circuit emulator connects to the target using a high-speed 40-pin rugged edge rate cable assembly and at the other end, it connects to adapter boards tailored for supported device communication. Learn More
MPLAB® ICD 4 In-Circuit Debugger ( DV164045 ) Product is End of Life (EOL), please consider MPLAB® ICD 5 or MPLAB PICkit™ 5 for your design needs. The MPLAB^® ICD 4 In-Circuit Debugger/Programmer is Microchip’s fastest, cost-effective debugging and programming tool for PIC^® and SAM Microcontrollers (MCUs) and Microprocessors (MPUs), dsPIC^® Digital Signal Controllers (DSCs), and CEC flash microcontrollers. This speed is provided by a SAME70 MCU with 300 MHz, 32-bit MCU with 2MB of RAM and a high-speed FPGA to yield faster communications, downloads and debugging. It debugs and programs with the powerful yet easy-to-use graphical user interface of MPLAB X Integrated Development Environment (IDE). The MPLAB ICD 4 is connected to your PC using a high-speed USB 2.0 interface and is connected to the target with a debugging connector which is also compatible with the MPLAB ICD 3 or MPLAB REAL ICE™ In-Circuit Emulator systems. The MPLAB ICD 4 also works with JTAG interfaces. The MPLAB ICD 4 In-Circuit Debugger/Programmer supports many, but not all, PIC MCUs and dsPIC DSCs at this time. The firmware is continually being upgraded to add support for new devices. To request priority device support or to report issues, email: ICD4_update@microchip.com If you have MPLAB X IDE installed, you can browse to the “docs” folder under your MPLABX installation directory and open the file “Device Support.htm”. Alternatively, you can download it from the Documentation tab on the MPLAB X webpage. Learn More
J-32 Debug Probe ( DV164232 ) The J-32 Debug Probe Debugger/Programmer provides affordable, fast and easy debugging and programming for Microchip’s PIC32 and SAM MCU and MPU products. Plus, SEGGER offers free, stand-alone applications to extend J-32 Debug Probe functionality: J-32 Debug Probe is fully integrated into Microchip’s powerful MPLAB® X Integrated Development Environment and easy-to-use Integrated Programming Environment. Connecting existing hardware is simple as it keeps the SEGGER J-Link/J-Trace 20-pin debugging connector. J-32 Debug Probe has all the necessary performance and features 32-bit MCU and MPU developers need. The J-32 Debug Probe is supported by these free tools from SEGGER: SystemView (V2.x) provides runtime recording and captures tasks, interrupts, timers, API calls and user events and provides live analysis of captured information. It has minimal system impact and works with all of Microchip’s Arm® Cortex®-M0, M1, M3, M4, M7 and RISC-V based processors. J-Scope application displays runtime data of multiple variables in an oscilloscope format. Simply connect the J-32 Debug Probe to your target, program and start J-Scope. Each variable can be individually manipulated with familiar oscilloscope controls and features. J-Scope also has minimal system impact and works with all of Microchip’s Arm Cortex-M0, M1, M3, M4, M7 and RISC-V based processors. Remote Server allows the J-32 Debug Probe to debug from anywhere in the world. This is especially useful when your software expert needs to resolve development or product issues in another region. Remote Server works on all of Microchip’s 32-bit MCU and MPU products. J-Mem permits direct RAM and Special Function Register (SFR) modifications without a bulky Integrated Development Environment (IDE). Memory can be displayed in an 8-, 16- or 32-bit format and can be exported to a .bin file. J-Mem is compatible with Windows®, macOS® and Linux® operating systems. J-Mem works on all of Microchip’s 32-bit MCU and MPU products. This product is a subset of SEGGER J-Link Base. Please refer to SEGGER’s J-Link Manual for setup and operational information here. Native support is available in MPLAB X IDE v5.25 which is available on the Downloads tab on the MPLAB X IDE product page here. J-32 Debug Probe is the replacement for MPU and SAM developers who previously developed with the SAM-ICE. A list of supported devices is available on SEGGER's website and selecting Microchip as the manufacturer here. Learn More
MPLAB® SNAP ( PG164100 ) Our most affordable debugger has power to impress. The MPLAB® Snap In-Circuit Debugger/Programmer allows affordable, fast and easy debugging and programming of PIC®, dsPIC®, AVR and SAM flash MCUs and MPUs, using the powerful graphical user interface of MPLAB X Integrated Development Environment (IDE) version 5.05 or later. The MPLAB Snap can be connected to a computer using a High-Speed USB 2.0 interface and can be connected to the target via an 8-pin Single In-Line (SIL) connector. The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming™ (ICSP™). It has all the speed and features entry-level users need to quickly debug their prototype. The MPLAB Snap programs fast, with a powerful 32-bit 300MHz SAME70 MCU for quicker debug iterations. Along with a wide target voltage, the MPLAB Snap supports advanced interfaces such as 4-wire JTAG and Serial Wire Debug with streaming data gateway, while being backward compatible for demo boards, headers and target systems using 2-wire JTAG and ICSP. Note: The Snap is compatible with MPLAB X IDE version 5.05 and later, and may not support all legacy devices. Please consult the Device Support file in the Documentation section of the MPLAB X IDE webpage. Download MPLAB X IDE Now. Learn More
MPLAB® PICkit™ 4 In-Circuit Debugger ( PG164140 ) As of September 1, 2023, this product will be EOL (End of Life). Please consider MPLAB® PICkit™ 5 for your design needs. Fast programming and increased functionality at the same price as its predecessor, the PICkit™ 3. The MPLAB® PICkit™ 4 now has Programmer-to-Go functionality for 8-bit, 16-bit and 32-bit PIC MCUs and dsPICs and also SAM MCU devices . The firmware update comes with MPLAB X IDE v5.30. The MPLAB® PICkit™ 4 In-Circuit Debugger/Programmer allows fast and easy debugging and programming of PIC®, dsPIC®, AVR, SAM and CEC flash microcontrollers (MCUs) and microprocessors (MPUs), using the powerful graphical user interface of MPLAB X Integrated Development Environment (IDE), starting with version 4.15. The MPLAB PICkit 4 is connected to the design engineer's computer using a high-speed 2.0 USB interface and can be connected to the target via an 8-pin Single In-Line (SIL) connector. The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming™ (ICSP™). An additional micro SD card slot and the ability to be self-powered from the target means you can take your code with you and program on the go. The MPLAB PICkit 4 programs faster than its predecessor with a powerful 32-bit 300 MHz SAME70 MCU and comes ready to support PIC^®, AVR, SAM and dsPIC^® MCU and MPU devices. Along with a wider target voltage, the PICkit 4 supports advanced interfaces such as 4-wire JTAG and Serial Wire Debug with streaming Data Gateway, while being backward compatible for demo boards, headers and target systems using 2-wire JTAG and ICSP. The PICkit 4 also has a unique programmer-to-go function with the addition of a micro SD card slot to hold project code and the ability to be powered by the target board. Note: The PICKit 4 is compatible with MPLAB X IDE version 4.15 and later. Download Now. To check supported devices: If you have MPLAB X IDE installed, you can browse to the “docs” folder under your MPLAB X installation directory and open the file “Device Support.htm”. Alternatively, you can download it from the Downloads tab from MPLAB® X IDE Learn More
ATMEL-ICE ( ATATMEL-ICE ) Atmel-ICE is a powerful development tool for debugging and programming ARM® Cortex®-M based SAM and AVR microcontrollers with on-chip debug capability. Atmel-ICE supports: Programming and on-chip debugging of all AVR 32-bit MCUs on both JTAG and aWire interfaces Programming and on-chip debugging of all AVR XMEGA family devices on both JTAG and PDI 2-wire interfaces JTAG and SPI programming and debugging of all AVR 8-bit MCUs with OCD support on either JTAG or debugWIRE interfaces Programming and debugging of all SAM ARM Cortex-M based MCUs on both SWD and JTAG interfaces Programming of all tinyAVR 8-bit MCUs with support for the TPI interface Programming and debugging of all AVR 8-bit MCUs with UPDI For more information, please visit the Online User Guide. Atmel-ICE kit contents: ATATMEL-ICE: Encapsulated main unit, USB cable, 10-lead squid cable, flat cable (10-pin 50mil connector and 6-pin 100mil connector) and adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) ATATMEL-ICE-BASIC: Encapsulated main unit, USB cable and flat cable (10-pin 50mil connector and 6-pin 100mil connector) ATATMEL-ICE-PCBA: PCB assembly of main unit only, no cables ATATMEL-ICE-ADPT: 10-lead squid cable, flat cable (10-pin 50mil connector and 6-pin 100mil connector) and adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) ATATMEL-ICE-CABLE: Flat cable (10-pin 50mil connector and 6-pin 100mil connector) Learn More
POWER DEBUGGER ( atpowerdebugger ) Power Debugger is a powerful development tool for debugging and programming AVR microcontrollers using UPDI, JTAG, PDI, debugWIRE, aWire, TPI or SPI target interfaces and ARM® Cortex®-M based SAM microcontrollers using JTAG or SWD target interfaces. In addition the Power Debugger has two independent current sensing channels for measuring and optimizing the power consumption of a design. Power Debugger also includes a CDC virtual COM port interface as well as Data Gateway Interface channels for streaming application data to the host computer from a SPI, USART, TWI or GPIO source. The Power Debugger is a CMSIS-DAP compatible debugger which works with MPLAB X, Atmel Studio 7 and other frontend software capable of connecting to a generic CMSIS-DAP unit. The Power Debugger streams power measurements and application debug data to Data Vizualiser for real-time analysis. Power Debugger kit contents: Main unit with plastic back-plate 2xUSB cable 10-lead squid cable Flat cable (10-pin 50mil connector and 6-pin 100mil connector) Adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) 20-pin 100mil jumper cable Learn More

Tools
CURIOSITY NANO BASE FOR CLICK BOARDS™ ( AC164162 ) The Microchip Curiosity Nano Base for Click boards™ evaluation kit is a hardware extension platform to ease the connection between Curiosity Nano kits and extension boards like the mikroBUS™ Click modules and Xplained Pro extension boards. Learn More
SAM-IoT Wx v2 Development Board ( EV62V87A ) The SAM-IoT Wx v2 Development Board is a small and easy-to-expand hardware platform used to evaluate and develop IoT solutions. It features our ATSAMD21G18 Arm® Cortex®-M0+ based Flash microcontroller (MCU), ATECC608B secure element and the ATWINC1510 Wi-Fi® controller module, and it can be reconfigured to send data to a variety of cloud service providers. The ATSAMD21G18A MCU reads the data from the on-board light and temperature sensors, and the pre-programmed demonstration application then publishes this data to the cloud every second. Any data the cloud receives from the sensors is sent to the virtual serial port and can be displayed in a serial terminal application. The ATWINC1510 Wi-Fi controller module needs a connection to the Internet-enabled Wi-Fi network. The ATECC608B secure element authenticates the hardware with the cloud to uniquely identify every board. The demonstration application source code can be modified to publish data to a personal cloud account, if you would like to create a custom cloud application. Learn More
CURIOSITY NANO TOUCH ADAPTER ( AC80T88A ) The Microchip Curiosity Nano Touch Adapter is a hardware extension platform to ease the connection between Curiosity Nano MCU Evauation Boards and Xplained Pro Touch Extension Boards. The Curiosity Nano Touch Adapter physically bridges from the Curiosity Nano MCUs kits to the XPRO connected touch extension boards, such as: QT7 Xplained Pro Extension Kit (ATQT7-XPRO) - buttons, slider, self capacitive sensing QT8 Xplained Pro Extension Kit (AC164161) - 2D touchpad T10 Xplained Pro Extension Kit (AC47H23A) - buttons, slider, mutual capacitive sensing, Boost Mode Touch Please use the Curiosity Nano Touch Adapter Pin Configurator for an complete pin for pin overview how to connect 8bit / 16bit / 32bit MCU Curiosity Nano boards to touch extension boards. Please find this compelling and time saving guide in the DOCUMENT section below as well. Its similar in purpose as the Curiosity Nano Base for Click boards™ (AC164162) yet focused on touch extension boards. Please be aware that below selection of Related Tools is selection - not showing all supported boards. Every Curiosity Nano MCU evaluation board with touch support through Micrchip Code Configurator is supported. Learn More
SAM D21 CURIOSITY NANO EVALUATION KIT ( DM320119 ) The SAM D21 Curiosity Nano Evaluation Kit is a hardware platform to evaluate the SAMD21G17 microcontroller (MCU). It is supported by the MPLAB® X Integrated Development Environment (IDE) and MPLAB Harmony v3 software development framework. The evaluation kit is compatible with the Curiosity Nano Base board (Part Number - AC164162) which allows you to quickly scale and prototype your next innovative design using the SAMD21G17 MCU. Learn More
I/O1 XPLAINED PRO EXTENSION KIT ( ATIO1-XPRO ) I/O1 Xplained Pro provides a light sensor, temperature sensor, and microSD card. It connects to the extension headers of any Xplained Pro Evaluation Kit. Learn More
OLED1 XPLAINED PRO EXTENSION KIT ( ATOLED1-XPRO ) OLED1 Xplained Pro is an extension kit with a 128x32 OLED display, 3 LEDs and 3 push buttons. It connects to the extension headers of any Xplained Pro evaluation kit. Learn More
BNO055 XPLAINED PRO EXTENSION KIT ( ATBNO055-XPRO ) BNO055 Xplained Pro is an extension with the Bosch BNO055 Intelligent 9-axis absolute orientation sensor and a RGB LED. It connects to the extension headers of any Xplained Pro evaluation kit. The ATBNO055-XPRO extension kit does not include a Xplained Pro evaluation kit. Getting started user guide from Bosch is available here. Learn More
ETHERNET1 XPLAINED PRO EXTENSION KIT ( ATETHERNET1-XPRO ) Ethernet1 Xplained Pro is an extension board in the Xplained Pro evaluation platform. The board enables the user to experiment with Ethernet network connectivity applications. Learn More
PROTO1 XPLAINED PRO EXTENSION KIT ( ATPROTO1-XPRO ) PROTO1 Xplained Pro provides easy prototyping on the Xplained Pro platform. It connects to the extension headers of any Xplained Pro evaluation kit and can be used as a gateway to other Xplained Pro extension boards with its own Xplained Pro extension header. Learn More
QT1 XPLAINED PRO EXTENSION KIT ( ATQT1-XPRO ) QT1 Xplained Pro kit is an extension kit that enables evaluation of self- and mutual capacitance mode using the Peripheral Touch Controller(PTC). The kit shows how easy it is to design a capacitive touch board solution using the PTC without the need for any external components. The kit includes two boards, one using self-capacitance and one using mutual capacitance. If you want to implement self capacitance sliders using the latest modular touch library, please use QT7 Xplained Pro instead. Learn More
QT3 XPLAINED PRO EXTENSION KIT ( ATQT3-XPRO ) QT3 Xplained Pro is a QTouch keypad extension board demonstrating an ultra-low power keypad design using the Peripheral Touch Controller (PTC). Utilizing the PTCs low power capabilities it enables markets lowest power wake-up on touch. Note: QT3 Xplained Pro requires a compatible Xplained Pro evaluation kit. See the Related Tools tab for supported models. Learn More
QT4 XPLAINED PRO ( ATQT4-XPRO ) The QT4 Xplained Pro kit is an extension board that enables evaluation of self-capacitance Touch and Proximity sensors using the Peripheral Touch Controller (PTC). The kit shows how easy it is to design a capacitive touch board solution using the PTC without the need for any external components. Learn More
SAM D21E16L MOTOR CONTROL CARD ( ATSAMD21E16LMOTOR ) The ATSAMD21E16LMOTOR is an MCU card for Motor control starter kit - ATSAMxxxBDLCxxx-STK. The hardware has the SMART ARM based MCU, ATSAMD21E16L, with integrated on-board debug support. The MCU card can be directly used with the currently available ATSAMD21BLDC24V-STK, a low voltage BLDC, PMSM motor control starter kit. Learn More
SAM D20 XPLAINED PRO EVALUATION KIT ( ATSAMD20-XPRO ) The SAM D20 Xplained Pro evaluation kit is ideal for evaluation and prototyping with the SAM D20 Arm® Cortex®-M0+ processor-based microcontrollers. Xplained Pro Extension kits compatible with the SAM D20 Xplained Pro kit can be purchased individually. The ATSAMD20-XPRO evaluation kit does not include extension boards. SAM D20 Xplained Pro supports many Xplained Pro extension kits, including I/O1 Xplained Pro, OLED1 Xplained Pro, and PROTO1 Xplained Pro. Learn More
SAM DA1 XPLAINED PRO ( ATSAMDA1-XPRO ) The SAM DA1 Xplained Pro evaluation kit is ideal for evaluating and prototyping with the SAM DA1 ARM® Cortex®-M0+ based microcontrollers. Extension boards to the SAM DA1 Xplained Pro can be purchased individually. The ATSAMDA1-XPRO evaluation kit does not include extension boards. The SAM DA1 Xplained Pro supports the I/O1 Xplained Pro, OLED1 Xplained Pro, QT1 and QT4 Xplained Pro and PROTO1 Xplained Pro extension boards. Learn More
SLCD1 XPLAINED PRO EXTENSION KIT ( ATSLCD1-XPRO ) SLCD1 Xplained Pro is an extension kit with a 96-segment LCD display. It connects to Xplained Pro evaluation kits with segment LCD extension headers. For supported kits, see the related tools tab. Learn More
STK600-RC064SAM-72 ( ATSTK600-RC72 ) Routing card for SAM D20 in 64-pin TQFP and QFN socket supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC048SAM-78 ( ATSTK600-RC78 ) Routing card for SAM D20 in 48-pin TQFP and QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC032SAM-79 ( ATSTK600-RC79 ) Routing card for SAM D20 in 32-pin TQFP and QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC064SAM-87 ( ATSTK600-RC87 ) Routing card for SAM D21 in 64-pin TQFP and QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC048SAM-88 ( ATSTK600-RC88 ) Routing card for SAM D21 in 48-pin TQFP and QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC032SAM-89 ( ATSTK600-RC89 ) Routing card for SAM D21 in 32-pin TQFP and QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC024SAM-90 ( ATSTK600-RC90 ) Routing card for SAM D10/11 in 24-pin QFN socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-RC032SAM-95 ( ATSTK600-RC95 ) Routing card for SAM D21L in 32-pin QFN or TQFP socket. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-QFN32 ( ATSTK600-SC12 ) Socket card for 32-pins QFN 0.5 mm pitch devices. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
STK600-QFN24 ( ATSTK600-SC62 ) Generic socket card for 24-pins QFN 0.5 mm pitch devices. Supplements the STK600 Starter Kit. For an overview of card combinations and supported devices see Device Support Table Learn More
SAM D21 XPLAINED PRO EVALUATION KIT ( ATSAMD21-XPRO ) The SAM D21 Xplained Pro evaluation kit is ideal for evaluating and prototyping with the SAM D21 ARM® Cortex®-M0+ based microcontrollers. Xplained Pro Extension kits compatible with SAM D21 Xplained Pro can be purchased individually. The ATSAMD21-XPRO evaluation kit does not include extension boards. SAM D21 Xplained Pro supports many Xplained Pro extension kits, including I/O1 Xplained Pro, OLED1 Xplained Pro, QT1 Xplained Pro, and PROTO1 Xplained Pro. To begin configuring software for your board, visit our web-based software configuration tool Atmel START. Learn More

Tools
MPLAB® PICkit™ 5 In-Circuit Debugger ( PG164150 ) Did you know that MPLAB® PICkit™ 5 is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code? These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB® PICkit™ 5 in-circuit debugger/programmer enables quick prototyping and portable, production-ready programming for all Microchip devices, including PIC® microcontrollers (MCUs) and dsPIC® Digital Signal Controllers (DSCs), AVR® and SAM devices and Arm® Cortex®-based microprocessors (MPUs). It works alongside the MPLAB X Integrated Development Environment (IDE) to provide a powerful and easy-to-use Graphical User Interface (GUI) for debugging and programming. Alternatively, the MPLAB PICkit 5 in-circuit debugger/programmer can be used stand-alone with the MPLAB Programmer-to-Go (PTG) mobile app, allowing you to connect to the tool from your smartphone via Bluetooth®. With stand-alone programming features accessible from your smartphone, the MPLAB PICkit 5 in-circuit debugger/programmer is a versatile programming companion that lets you prototype and debug your solution and then unplug and bring the device with you to deploy that solution out in the field. The MPLAB PICkit 5 supports a wide variety of interfaces such as four-wire JTAG or Serial Wire Debug (SWD) with streaming UART Virtual Comm Port (VCP), and with the Debugger Adapter Board (AC102015) can use standard connectors for JTAG, SWD, ICSP, and AVR Protocols. With the unique programmer-to-go function, the PICkit 5 can also be powered by the target board and program a default image simply by pressing the button hidden under the logo. You can also connect via Bluetooth using the MPLAB PTG mobile app and browse the micro SD^TM card installed in the tool for a different image and start programming the target board right from the app. Note: The PICKit 5 is compatible with MPLAB X IDE version 6.10 and later. Download Now. Learn More
MPLAB® ICD 5 In-Circuit Debugger/Programmer ( DV164055 ) Did you know that the MPLAB® ICD 5 In-Circuit Debugger/Programmer is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code? These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB^® ICD 5 In-Circuit Debugger/Programmer offers advanced connectivity and power options for developers of designs based on PIC^®, AVR^® and SAM devices and dsPIC^® Digital Signal Controllers (DSCs). It debugs and programs with the powerful and easy-to-use graphical user interface of MPLAB X Integrated Development Environment (IDE). This next-generation tool offers a variety of capabilities and features that you would normally find in more expensive products to speed up your development and reduce your debug time. With its support for Fast Ethernet connectivity and Power over Ethernet Plus (PoE+), the MPLAB ICD 5 Debugger/Programmer offers flexibility and the convenience of remote development while isolating your application from environmental conditions. Whether you're an experienced developer or just starting out, the MPLAB^®ICD 5 In-Circuit Debugger/Programmer will accelerate your development process and help you take your designs to the next level. Learn More
MPLAB® ICE 4 In-Circuit Emulator, Programmer and Debugger ( DV244140 ) Did you know that the MPLAB® ICE 4 in-circuit emulator is now supported in Microsoft® Visual Studio® Code (VS Code®) via our MPLAB Extensions for VS Code. These extensions are currently released under an early access program to allow users to provide us with feedback for additional development. Join the conversation and help us to refine and expand our offerings. The MPLAB ICE 4 in-circuit emulator system boosts productivity with feature-rich programming and debugging for PIC®, AVR® and SAM devices and dsPIC® Digital Signal Controllers (DSCs). It offers a flexible development environment combined with the capabilities to develop power-efficient code while reducing the debug time. It debugs and programs with a powerful and easy-to-use graphical user interface that uses the latest version of MPLAB X Integrated Development Environment (IDE), version 6.00. The MPLAB ICE 4 in-circuit emulator connects to a host PC using a SuperSpeed USB 3.0 interface and easy-to-use wireless connectivity options for much greater flexibility. By using Ethernet or Wi-Fi® access point interfaces, you can enable wireless connection to the tool for debugging, programming and more. At one end, the MPLAB ICE 4 in-circuit emulator connects to the target using a high-speed 40-pin rugged edge rate cable assembly and at the other end, it connects to adapter boards tailored for supported device communication. Learn More
MPLAB® ICD 4 In-Circuit Debugger ( DV164045 ) Product is End of Life (EOL), please consider MPLAB® ICD 5 or MPLAB PICkit™ 5 for your design needs. The MPLAB^® ICD 4 In-Circuit Debugger/Programmer is Microchip’s fastest, cost-effective debugging and programming tool for PIC^® and SAM Microcontrollers (MCUs) and Microprocessors (MPUs), dsPIC^® Digital Signal Controllers (DSCs), and CEC flash microcontrollers. This speed is provided by a SAME70 MCU with 300 MHz, 32-bit MCU with 2MB of RAM and a high-speed FPGA to yield faster communications, downloads and debugging. It debugs and programs with the powerful yet easy-to-use graphical user interface of MPLAB X Integrated Development Environment (IDE). The MPLAB ICD 4 is connected to your PC using a high-speed USB 2.0 interface and is connected to the target with a debugging connector which is also compatible with the MPLAB ICD 3 or MPLAB REAL ICE™ In-Circuit Emulator systems. The MPLAB ICD 4 also works with JTAG interfaces. The MPLAB ICD 4 In-Circuit Debugger/Programmer supports many, but not all, PIC MCUs and dsPIC DSCs at this time. The firmware is continually being upgraded to add support for new devices. To request priority device support or to report issues, email: ICD4_update@microchip.com If you have MPLAB X IDE installed, you can browse to the “docs” folder under your MPLABX installation directory and open the file “Device Support.htm”. Alternatively, you can download it from the Documentation tab on the MPLAB X webpage. Learn More
J-32 Debug Probe ( DV164232 ) The J-32 Debug Probe Debugger/Programmer provides affordable, fast and easy debugging and programming for Microchip’s PIC32 and SAM MCU and MPU products. Plus, SEGGER offers free, stand-alone applications to extend J-32 Debug Probe functionality: J-32 Debug Probe is fully integrated into Microchip’s powerful MPLAB® X Integrated Development Environment and easy-to-use Integrated Programming Environment. Connecting existing hardware is simple as it keeps the SEGGER J-Link/J-Trace 20-pin debugging connector. J-32 Debug Probe has all the necessary performance and features 32-bit MCU and MPU developers need. The J-32 Debug Probe is supported by these free tools from SEGGER: SystemView (V2.x) provides runtime recording and captures tasks, interrupts, timers, API calls and user events and provides live analysis of captured information. It has minimal system impact and works with all of Microchip’s Arm® Cortex®-M0, M1, M3, M4, M7 and RISC-V based processors. J-Scope application displays runtime data of multiple variables in an oscilloscope format. Simply connect the J-32 Debug Probe to your target, program and start J-Scope. Each variable can be individually manipulated with familiar oscilloscope controls and features. J-Scope also has minimal system impact and works with all of Microchip’s Arm Cortex-M0, M1, M3, M4, M7 and RISC-V based processors. Remote Server allows the J-32 Debug Probe to debug from anywhere in the world. This is especially useful when your software expert needs to resolve development or product issues in another region. Remote Server works on all of Microchip’s 32-bit MCU and MPU products. J-Mem permits direct RAM and Special Function Register (SFR) modifications without a bulky Integrated Development Environment (IDE). Memory can be displayed in an 8-, 16- or 32-bit format and can be exported to a .bin file. J-Mem is compatible with Windows®, macOS® and Linux® operating systems. J-Mem works on all of Microchip’s 32-bit MCU and MPU products. This product is a subset of SEGGER J-Link Base. Please refer to SEGGER’s J-Link Manual for setup and operational information here. Native support is available in MPLAB X IDE v5.25 which is available on the Downloads tab on the MPLAB X IDE product page here. J-32 Debug Probe is the replacement for MPU and SAM developers who previously developed with the SAM-ICE. A list of supported devices is available on SEGGER's website and selecting Microchip as the manufacturer here. Learn More
MPLAB® PICkit™ 4 In-Circuit Debugger ( PG164140 ) As of September 1, 2023, this product will be EOL (End of Life). Please consider MPLAB® PICkit™ 5 for your design needs. Fast programming and increased functionality at the same price as its predecessor, the PICkit™ 3. The MPLAB® PICkit™ 4 now has Programmer-to-Go functionality for 8-bit, 16-bit and 32-bit PIC MCUs and dsPICs and also SAM MCU devices . The firmware update comes with MPLAB X IDE v5.30. The MPLAB® PICkit™ 4 In-Circuit Debugger/Programmer allows fast and easy debugging and programming of PIC®, dsPIC®, AVR, SAM and CEC flash microcontrollers (MCUs) and microprocessors (MPUs), using the powerful graphical user interface of MPLAB X Integrated Development Environment (IDE), starting with version 4.15. The MPLAB PICkit 4 is connected to the design engineer's computer using a high-speed 2.0 USB interface and can be connected to the target via an 8-pin Single In-Line (SIL) connector. The connector uses two device I/O pins and the reset line to implement in-circuit debugging and In-Circuit Serial Programming™ (ICSP™). An additional micro SD card slot and the ability to be self-powered from the target means you can take your code with you and program on the go. The MPLAB PICkit 4 programs faster than its predecessor with a powerful 32-bit 300 MHz SAME70 MCU and comes ready to support PIC^®, AVR, SAM and dsPIC^® MCU and MPU devices. Along with a wider target voltage, the PICkit 4 supports advanced interfaces such as 4-wire JTAG and Serial Wire Debug with streaming Data Gateway, while being backward compatible for demo boards, headers and target systems using 2-wire JTAG and ICSP. The PICkit 4 also has a unique programmer-to-go function with the addition of a micro SD card slot to hold project code and the ability to be powered by the target board. Note: The PICKit 4 is compatible with MPLAB X IDE version 4.15 and later. Download Now. To check supported devices: If you have MPLAB X IDE installed, you can browse to the “docs” folder under your MPLAB X installation directory and open the file “Device Support.htm”. Alternatively, you can download it from the Downloads tab from MPLAB® X IDE Learn More
ATMEL-ICE ( ATATMEL-ICE ) Atmel-ICE is a powerful development tool for debugging and programming ARM® Cortex®-M based SAM and AVR microcontrollers with on-chip debug capability. Atmel-ICE supports: Programming and on-chip debugging of all AVR 32-bit MCUs on both JTAG and aWire interfaces Programming and on-chip debugging of all AVR XMEGA family devices on both JTAG and PDI 2-wire interfaces JTAG and SPI programming and debugging of all AVR 8-bit MCUs with OCD support on either JTAG or debugWIRE interfaces Programming and debugging of all SAM ARM Cortex-M based MCUs on both SWD and JTAG interfaces Programming of all tinyAVR 8-bit MCUs with support for the TPI interface Programming and debugging of all AVR 8-bit MCUs with UPDI For more information, please visit the Online User Guide. Atmel-ICE kit contents: ATATMEL-ICE: Encapsulated main unit, USB cable, 10-lead squid cable, flat cable (10-pin 50mil connector and 6-pin 100mil connector) and adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) ATATMEL-ICE-BASIC: Encapsulated main unit, USB cable and flat cable (10-pin 50mil connector and 6-pin 100mil connector) ATATMEL-ICE-PCBA: PCB assembly of main unit only, no cables ATATMEL-ICE-ADPT: 10-lead squid cable, flat cable (10-pin 50mil connector and 6-pin 100mil connector) and adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) ATATMEL-ICE-CABLE: Flat cable (10-pin 50mil connector and 6-pin 100mil connector) Learn More
POWER DEBUGGER ( atpowerdebugger ) Power Debugger is a powerful development tool for debugging and programming AVR microcontrollers using UPDI, JTAG, PDI, debugWIRE, aWire, TPI or SPI target interfaces and ARM® Cortex®-M based SAM microcontrollers using JTAG or SWD target interfaces. In addition the Power Debugger has two independent current sensing channels for measuring and optimizing the power consumption of a design. Power Debugger also includes a CDC virtual COM port interface as well as Data Gateway Interface channels for streaming application data to the host computer from a SPI, USART, TWI or GPIO source. The Power Debugger is a CMSIS-DAP compatible debugger which works with MPLAB X, Atmel Studio 7 and other frontend software capable of connecting to a generic CMSIS-DAP unit. The Power Debugger streams power measurements and application debug data to Data Vizualiser for real-time analysis. Power Debugger kit contents: Main unit with plastic back-plate 2xUSB cable 10-lead squid cable Flat cable (10-pin 50mil connector and 6-pin 100mil connector) Adapter board (20-pin 100mil connector, 6-pin 50mil connector and 10-pin 100mil connector) 20-pin 100mil jumper cable Learn More
SOFTLOG SEC-DS SECURE PROGRAMMING UPGRADE FOR ICP2 PROGRAMMERS ( SW500090 ) The Softlog SEC-DS Secure Programming Upgrade is a "Secure Programming" extension for the ICP2 and ICP2(HC) programmers that provides several layers of protection--utilizing breakthrough technology--dramatically reducing the risk of unauthorized reconstruction of hex data and limiting how many times a hex file can be programmed. Secure programming operates on two levels: the ADMIN level and the USER level. The ADMIN level of operation corresponds to the developer or owner of the software. The USER level corresponds to a contract manufacturer or anyone authorized to program devices. Using the Softlog Integrated Software, the ADMIN initializes the programmer with unique password, ID number and secure buffer. Once initialized, the programmer may be shipped to a contract manufacturer. The ADMIN can update the programmer remotely by sending encrypted files to the USER. To begin a programming job, the ADMIN uses the Softlog Integrated Software to create an environment file. The environment file includes hex data, configuration info, and one optional piece of information: a counter that specifies the maximum number of successfully programmed devices. The environment file is protected using strong encryption, and can only be decoded by a programmer that has been initialized with the correct password and ID number. The optional counter of successfully programmed devices is stored in non-volatile memory of the programmer. It can be used to ensure that only an authorized number of devices are programmed from a particular environment file. The optional secure buffer provides an extra level of security by replacing a portion of the hex data memory image with dummy values. The content of the secure buffer is stored in protected memory within the programmer, and is programmed into the target device after the complete memory image (including dummy data) has been programmed and verified. Note: Any security protocol or encryption scheme can be broken, if the attacker is sufficiently motivated and has access to the necessary resources and expertise. The Softlog Secure Programming feature is designed to dramatically reduce this risk. * Internet access is required for installation. Learn More
SOFTLOG SEC4CH-DS SECURE PROGRAMMING UPGRADE FOR ICP2GANG PROGRAMMERS ( SW500091 ) The Softlog SEC4CH-DS Secure Programming Upgrade is a "Secure Programming" extension for the ICP2GANG programmer that provides several layers of protection--utilizing breakthrough technology--dramatically reducing the risk of unauthorized reconstruction of hex data and also limiting how many times a hex file can be programmed. Secure programming operates on two levels: the ADMIN level and the USER level. The ADMIN level of operation corresponds to the developer or owner of the software. The USER level corresponds to a contract manufacturer or anyone authorized to program devices. Using the Softlog Integrated Software, the ADMIN initializes the programmer with unique password, ID number and secure buffer. Once initialized, the programmer may be shipped to a contract manufacturer. The ADMIN can update the programmer remotely by sending encrypted files to the USER. To begin a programming job, the ADMIN uses the Softlog Integrated Software to create an environment file. The environment file includes hex data, configuration info, and one optional piece of information: a counter that specifies the maximum number of successfully programmed devices. The environment file is protected using strong encryption, and can only be decoded by a programmer that has been initialized with the correct password and ID number. The optional counter of successfully programmed devices is stored in non-volatile memory of the programmer. It can be used to ensure that only an authorized number of devices are programmed from a particular environment file. The optional secure buffer provides an extra level of security by replacing a portion of the hex data memory image with dummy values. The content of the secure buffer is stored in protected memory within the programmer, and is programmed into the target device after the complete memory image (including dummy data) has been programmed and verified. Note: Any security protocol or encryption scheme can be broken, if the attacker is sufficiently motivated and has access to the necessary resources and expertise. The Softlog Secure Programming feature is designed to dramatically reduce this risk. * Internet access is required for installation. Learn More
SOFTLOG ICP2PORT(G3)-PX PORTABLE IN-CIRCUIT PRODUCTION PROGRAMMER ( TPG100011-G3 ) A member of the ICP(G3) family of high-speed, production-grade in-circuit programmers. This compact, battery-powered device supports up to six different programming environments, making it an ideal, low-cost solution for field upgrades. ICP2PORT(G3)-PX programs Microchip 8-bit PIC® & AVR® MCUs, 16-bit PIC MCUs & dsPIC® DSCs, 32-bit AVR, PIC & ARM Cortex M0/0+/23/3/4/7 MCUs and Serial EEPROMs & Flash ICs. ICP2PORT(G3)-PX hardware is designed to support popular programming interfaces (ICSP™, JTAG, SWD, UPDI, SPI, QSPI, etc.) Learn More
SOFTLOG ICP2(G3)-DPX ICSP PRODUCTION PROGRAMMER (PIC32MZ-COMPATIBLE) ( TPG100012-G3 ) The ICP2(G3)-DPX Production Quality In-Circuit Programmer is a cost-effective programmer that operates with a PC or as a standalone unit. It programs 8-bit PIC® & AVR® MCUs, 16-bit PIC MCUs & dsPIC® DSCs, 32-bit AVR, PIC & ARM Cortex M0/0+/23/3/4/7 MCUs and Serial EEPROMs & Flash ICs. ICP2(G3)-DPX hardware is designed to support popular programming interfaces (ICSP™, JTAG, SWD, UPDI, SPI, QSPI, etc.) Learn More
SOFTLOG ICP2GANG(G3)-DPX ICSP 4-CHANNEL GANG PROGRAMMER (PIC32MZ-COMPATIBLE) ( TPG100013-G3 ) The ICP2GANG(G3)-DPX Production Quality In-Circuit 4-channel (expandable to 64 channels) GANG programmer is a cost-effective programmer that operates with a PC or as a standalone unit and simultaneously programs 8-bit PIC® & AVR® MCUs, 16-bit PIC MCUs & dsPIC® DSCs, 32-bit AVR, PIC & ARM Cortex M0/0+/23/3/4/7 MCUs and Serial EEPROMs & Flash ICs. ICP2GANG(G3)-DPX hardware is designed to support popular programming interfaces (ICSP™, JTAG, SWD, UPDI, SPI, QSPI, etc.) Learn More
SOFTLOG ICP2-COMBO(G3)-DPX-8 8-CHANNEL GANG PROGRAMMER (PIC32MZ-COMPATIBLE) ( TPG100015-G3 ) The ICP2COMBO(G3)-DPX-8 Production Quality In-Circuit (ICSP) 8-channel (expandable up to 64 channels) GANG Programmer is a cost-effective programmer that operates with a PC or as a standalone unit and simultaneously programs 8-bit PIC® & AVR® MCUs, 16-bit PIC MCUs & dsPIC® DSCs, 32-bit AVR, PIC & ARM Cortex M0/0+/23/3/4/7 MCUs and Serial EEPROMs & Flash ICs. ICP2COMBO(G3)-DPX-8 hardware is designed to support popular programming interfaces (ICSP™, JTAG, SWD, UPDI, SPI, QSPI, etc.) Learn More
SOFTLOG ICP2COMBO(G3)-DPX-12 12-CHANNEL GANG PROGRAMMER (PIC32MZ-COMPATIBLE) ( TPG100014-G3 ) The ICP2COMBO(G3)-DPX-12 Production Quality In-Circuit (ICSP) 12-channel (expandable up to 60 channels) GANG Programmer is a cost-effective programmer that operates with a PC or as a standalone unit and simultaneously programs 8-bit PIC® & AVR® MCUs, 16-bit PIC MCUs & dsPIC® DSCs, 32-bit AVR, PIC & ARM Cortex M0/0+/23/3/4/7 MCUs and Serial EEPROMs & Flash ICs. ICP2COMBO(G3)-DPX-12 hardware is designed to support popular programming interfaces (ICSP™, JTAG, SWD, UPDI, SPI, QSPI, etc.) Learn More

Tools
ARM GCC ( ARM-GCC ) The ARM® Toolchain is a collection of tools/libraries used to create applications for ARM microcontrollers. This collection includes compiler, assembler, linker and Standard C and math libraries. Most of these tools are based on efforts from GNU (www.gnu.org), and some are developed by Microchip. For more information please refer to the release notes. The Atmel AVR GNU Toolchain is also available as part of Atmel Studio. Only those users who wish to run the Atmel AVR GNU Toolchain as standalone tools from the command line need to download and install this package. There are two sets of downloads, one for Windows® and one for Linux® operating systems. Learn More

Tools

ARM GCC ( ARM-GCC )

The ARM® Toolchain is a collection of tools/libraries used to create applications for ARM microcontrollers. This collection includes compiler, assembler, linker and Standard C and math libraries.

Most of these tools are based on efforts from GNU (www.gnu.org), and some are developed by Microchip. For more information please refer to the release notes.

The Atmel AVR GNU Toolchain is also available as part of Atmel Studio. Only those users who wish to run the Atmel AVR GNU Toolchain as standalone tools from the command line need to download and install this package. There are two sets of downloads, one for Windows® and one for Linux® operating systems.

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Search Development Tools Selector (DTS) by device number to find the development tools that support a particular device. To search by board or application, please use MPLAB^® Discover.