ChipWhisperer Wiki - User contributions [en]

CW308T-K24F

2018-08-23T15:25:25Z

LCraig: /* Security Features */

{{Infobox cw308target
|name = CW308T-K24F
|image = [[File:CW308T_K24F.PNG|400px]]
|caption =
|Target Device = NXP K24F
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the NXP MK24FN1M0VLL12 microcontroller.

== Power Supply ==

The K24F target runs from the 3.3v supply on the CW308T.

== Security Features ==
The K24F family of chips integrates many security features, including:
* Hardware CRC
* Hardware Random Number Generation
* Hardware encryption using DES, 3DES, AES, MD5, SHA
== Programming ==

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-K24F

2018-08-23T15:22:11Z

LCraig:

{{Infobox cw308target
|name = CW308T-K24F
|image = [[File:CW308T_K24F.PNG|400px]]
|caption =
|Target Device = NXP K24F
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the NXP MK24FN1M0VLL12 microcontroller.

== Power Supply ==

The K24F target runs from the 3.3v supply on the CW308T.

== Security Features ==
The K24F family of chips integrates many security features, including:

== Programming ==

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

Template:Hardware

2018-08-23T14:58:24Z

LCraig:

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-87C51]] • [[CW308T-AVR]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]] • [[CW308T-XMEGA]]
|-
! CW308 Targets (32-bit)
| [[CW308T-CC2538]] • [[CW308T-CEC1702]] • [[CW308T-D2000]] • [[CW308T-ESP32]] • [[CW308T-K24F]] • [[CW308T-MPC5748G]] • [[CW308T-SAM4L]] • [[CW308T-STM32F]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ADUCM3029]] • [[CW308T-ATSAML11]] • [[CW308T-ATSAMR21]] • [[CW308T-AURIX]] • [[CW308T-EFM32TG11]] • [[CW308T-EFM32GG11]] • [[CW308T-LPC1343]] • [[CW308T-NRF52840]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

CW308T-K24F

2018-08-23T14:37:03Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-K24F |image = 400px |caption = |Target Device = NXP K..."

File:CW308T K24F.PNG

2018-08-23T14:24:15Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

Template:Hardware

2018-08-23T14:07:11Z

LCraig: Reordered Targets in alphabetical order for easy lookup

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-87C51]] • [[CW308T-AVR]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]] • [[CW308T-XMEGA]]
|-
! CW308 Targets (32-bit)
| [[CW308T-CC2538]] • [[CW308T-CEC1702]] • [[CW308T-D2000]] • [[CW308T-ESP32]] • [[CW308T-K24F]] • [[CW308T-MPC5748G]] • [[CW308T-SAM4L]] • [[CW308T-STM32F]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ATSAMR21]] • [[CW308T-ADUCM3029]] • [[CW308T-NRF52840]] • [[CW308T-LPC1343]] • [[CW308T-ATSAML11]] • [[CW308T-AURIX]] • [[CW308T-EFM32TG11]] • [[CW308T-EFM32GG11]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

CW308T-LPC1343

2018-08-23T13:54:57Z

LCraig:

{{Infobox cw308target
|name = CW308T-LPC1343
|Target Architecture =
|image = [[File:CW308T_LPC1343.PNG|400px]]
|caption =
|Target Device = NXP LPC1343
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the NXP LPC1343 microcontroller.

== Power Supply ==

The core of the SAML11 chip runs from a 3.3v supply. This is supplied through the CW308T filter and delivered across a shunt resistor for power analysis. The I/O buses are also supplied with 3.3v.
== Code Read Protection ==

The LPC13** family uses a code read protection feature to restrict access to application code after programming.

== Programming ==

UART and USB bootloaders are supported on these devices.

Serial Wire Debug (SWD) is supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T LPC1343.PNG

2018-08-23T13:54:41Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

CW308T-AURIX

2018-08-23T13:35:32Z

LCraig:

{{Infobox cw308target
|name = CW308T-AURIX
|image = [[File:CW308T_AURIX.PNG|400px]]
|caption =
|Target Device = Infineon TC233LP
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Infineon TC233LP microcontroller.

== Power Supply ==

The core of the TC233LP chip runs from a 1.3v supply that is generated from an on-board regulator. The I/O buses are supplied with 3.3v.
== Security Features ==

== Programming ==

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T AURIX.PNG

2018-08-23T13:33:47Z

LCraig: LCraig uploaded a new version of File:CW308T AURIX.PNG

File uploaded with MsUpload

CW308T-AURIX

2018-08-23T13:33:07Z

LCraig:

{{Infobox cw308target
|name = CW308T-AURIX
|image =
|caption =
|Target Device = Infineon TC233LP
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Infineon TC233LP microcontroller.

== Power Supply ==

The core of the TC233LP chip runs from a 1.3v supply that is generated from an on-board regulator. The I/O buses are supplied with 3.3v.
== Security Features ==

== Programming ==

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T AURIX.PNG

2018-08-23T13:32:19Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

CW308T-EFM32TG11

2018-08-23T13:30:56Z

LCraig:

{{Infobox cw308target
|name = CW308T-EFM32TG11
|image = [[File:CW308T_EFM32TG11.PNG|400px]]
|caption =
|Target Device = Silicon Labs EFM32TG11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Tiny Gecko 11 microcontroller. The chip mounted on the target board is the EMF32TG11B3.

== Power Supply ==

The core of the Tiny Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

The Tiny Gecko family of microcontrollers implements many security features including:
* Hardware implementations of AES-128/256, SHA-224/256
* Hardware CRC engine
* Access control for peripherals

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32tg11-datasheet.pdf</ref>

== Programming ==
A serial bootloader is implemented on the Tiny Gecko series of chips. Details for the use of this feature are described in Silicon Labs application note AN0042<ref>https://www.silabs.com/documents/public/application-notes/an0042-efm32-usb-uart-bootloader.pdf</ref>.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T EFM32TG11.PNG

2018-08-23T13:30:35Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

CW308T-ATSAML11

2018-08-23T13:28:59Z

LCraig:

{{Infobox cw308target
|name = CW308T-ATSAML11
|image = [[File:CW308T_ATSAML11.PNG|400px]]
|caption =
|Target Device = Atmel SAML11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Microchip ATSAML11 microcontroller.

== Power Supply ==

The core of the SAML11 chip runs from a 1.2v supply. This is supplied through the CW308T 1.2v regulator. The I/O busses are supplied with 3.3v.
== Security Features ==

The SAML11 platform integrates many advanced security features including:
* Up to four tamper pins for static and dynamic intrusion detections
* Silent flash access for side channel attack resistance
* Data scrambling with user-defined keys for both Flash and RAM
* A True Random Number Generator
For a full list of security features see the product family data sheet<ref>http://ww1.microchip.com/downloads/en/DeviceDoc/SAM-L10L11%20Family-DataSheet%20-%20DS60001513B.pdf</ref>

== Programming ==

The SAML10/11 family implements a serial bootloader. Usage of this bootloader is not detailed in the data sheet, for usage information see Microchip Application note AN2699<ref>http://ww1.microchip.com/downloads/en/AppNotes/00002699A-UART%20Bootloader%20for%20SAM%20L10%20%20SAM%20L11.pdf</ref>.

Serial Wire Debug (SWD) is also supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T ATSAML11.PNG

2018-08-23T13:28:41Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

CW308T-EFM32GG11

2018-08-23T13:20:54Z

LCraig:

{{Infobox cw308target
|name = CW308T-EFM32GG11
|image = CW308T_EFM32GG11.PNG
|caption =
|Target Device = Silicon Labs EFM32GG11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Giant Gecko 11 microcontroller. The chip mounted on the target board is the EFM32GG11B1.

== Power Supply ==

The core of the Giant Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32gg-datasheet.pdf</ref>

== Programming ==
A serial bootloader is implemented on the Giant Gecko series of chips. Details for the use of this feature are described in Silicon Labs application note AN0042<ref>https://www.silabs.com/documents/public/application-notes/an0042-efm32-usb-uart-bootloader.pdf</ref>.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-EFM32GG11

2018-08-23T13:14:03Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = CW308T_EFM32GG11.PNG
|caption =
|Target Device = Silicon Labs EFM32GG11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Giant Gecko 11 microcontroller. The chip mounted on the target board is the EFM32GG11B1.

== Power Supply ==

The core of the Giant Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32gg-datasheet.pdf</ref>

== Programming ==
A serial bootloader is implemented on the Giant Gecko series of chips. Details for the use of this feature are described in Silicon Labs application note AN0042<ref>https://www.silabs.com/documents/public/application-notes/an0042-efm32-usb-uart-bootloader.pdf</ref>.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-EFM32GG11

2018-08-23T13:11:11Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = [[:File:CW308T_EFM32GG11.PNG]]
|caption =
|Target Device = Silicon Labs EFM32GG11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Giant Gecko 11 microcontroller. The chip mounted on the target board is the EFM32GG11B1.

== Power Supply ==

The core of the Giant Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32gg-datasheet.pdf</ref>

== Programming ==
A serial bootloader is implemented on the Giant Gecko series of chips. Details for the use of this feature are described in Silicon Labs application note AN0042<ref>https://www.silabs.com/documents/public/application-notes/an0042-efm32-usb-uart-bootloader.pdf</ref>.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T EFM32GG11.PNG

2018-08-23T13:10:14Z

LCraig: File uploaded with MsUpload

File uploaded with MsUpload

File:CW308T ATSAML11.png

2018-08-22T18:37:09Z

LCraig:

CW308T-ATSAML11

2018-08-22T18:25:36Z

LCraig:

{{Infobox cw308target
|name = CW308T-ATSAML11
|image = CW308T_ATSAML11.jpg
|caption =
|Target Device = Atmel SAML11
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Microchip ATSAML11 microcontroller.

== Power Supply ==

The core of the SAML11 chip runs from a 1.2v supply. This is supplied through the CW308T 1.2v regulator. The I/O busses are supplied with 3.3v.
== Security Features ==

The SAML11 platform integrates many advanced security features including:
* Up to four tamper pins for static and dynamic intrusion detections
* Silent flash access for side channel attack resistance
* Data scrambling with user-defined keys for both Flash and RAM
* A True Random Number Generator
For a full list of security features see the product family data sheet<ref>http://ww1.microchip.com/downloads/en/DeviceDoc/SAM-L10L11%20Family-DataSheet%20-%20DS60001513B.pdf</ref>

== Programming ==

The SAML10/11 family implements a serial bootloader. Usage of this bootloader is not detailed in the data sheet, for usage information see Microchip Application note AN2699<ref>http://ww1.microchip.com/downloads/en/AppNotes/00002699A-UART%20Bootloader%20for%20SAM%20L10%20%20SAM%20L11.pdf</ref>.

Serial Wire Debug (SWD) is also supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

File:CW308T ADuCM3029.PNG

2018-08-22T18:21:09Z

LCraig:

CW308T-ADUCM3029

2018-08-22T18:20:46Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = CW308T_ADuCM3029.PNG
|caption =
|Target Device = ADuCM3029
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files =
|Supported Applications =
|Status = In Developement
}}

This board supports the Analog Devices ADuCM3029 microcontroller. The mounted chip is the ADUCM3029BCPZ.

== Power Supply ==

The ADuCM3029 can run from a core supply voltage between 1.8 and 3.3 volts. By default the core is fed from the 3.3v supply but the adjustable regulator on the CW308T can be used to set any viable core voltage. Sometimes power analysis is more viable at different supply voltages.

== Cryptographic Accelerator ==

As described in the ADuCM3027/3029 Data Sheet<ref>http://www.analog.com/media/en/technical-documentation/data-sheets/ADuCM3027_3029.pdf</ref>, The cryptographic accelerator is a 32-bit APB DMA capable peripheral. There are two 32-bit buffers provided for data input/output operations. These buffers read in or read out 128 bits in four data accesses. Big endian and little endian data formats are supported, as are the following modes:
* Electronic code book (ECB) mode—
* AES mode (128 and 256)
* Counter (CTR) mode
* Cipher block chaining (CBC) mode
* Message authentication code (MAC) mode
* Cipher block chaining-message authentication code (CCM/CCM) mode
* SHA-256 mode

== Programming ==

The ADuCM3029 supports a serial bootloader which is enabled by pulling down the PDIC pin on the CW308T. Details for using the serial bootloader can be found in the application note EE-381<ref>http://www.analog.com/media/en/technical-documentation/application-notes/EE381v01.pdf</ref>. Single wire debug (SWD) is also supported for programming and debugging.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-EFM32TG11

2018-08-22T18:00:05Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Tiny Gecko 11 microcontroller. The chip mounted on the target board is the EMF32TG11B3.

== Power Supply ==

The core of the Tiny Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

The Tiny Gecko family of microcontrollers implements many security features including:
* Hardware implementations of AES-128/256, SHA-224/256
* Hardware CRC engine
* Access control for peripherals

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32tg11-datasheet.pdf</ref>

== Programming ==
A serial bootloader is implemented on the Tiny Gecko series of chips. Details for the use of this feature are described in Silicon Labs application note AN0042<ref>https://www.silabs.com/documents/public/application-notes/an0042-efm32-usb-uart-bootloader.pdf</ref>.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-EFM32GG11

2018-08-22T17:57:57Z

LCraig:

CW308T-EFM32GG11

2018-08-22T17:57:21Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

CW308T-EFM32TG11

2018-08-22T17:42:36Z

LCraig: /* Programming */

CW308T-EFM32TG11

2018-08-22T17:39:53Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Silicon Labs EFM32 Tiny Gecko 11 microcontroller. The chip mounted on the target board is the EMF32TG11B3.

== Power Supply ==

The core of the Tiny Gecko chip runs from a 1.2v supply. This is supplied and filtered through the CW308T. The I/O buses are supplied with 3.3v.
== Security Features ==

The Tiny Gecko family of microcontrollers implements many security features including:

For a full list of security features see the product family data sheet<ref>https://www.silabs.com/documents/public/data-sheets/efm32tg11-datasheet.pdf</ref>

== Programming ==

The SAML10/11 family implements a serial bootloader. Usage of this bootloader is not detailed in the data sheet, for usage information see Microchip Application note AN2699<ref>http://ww1.microchip.com/downloads/en/AppNotes/00002699A-UART%20Bootloader%20for%20SAM%20L10%20%20SAM%20L11.pdf</ref>.

Serial Wire Debug (SWD) is also supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

Template:Hardware

2018-08-22T17:23:31Z

LCraig:

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-AVR]] • [[CW308T-XMEGA]] • [[CW308T-87C51]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]]
|-
! CW308 Targets (32-bit)
| [[CW308T-MPC5748G]] • [[CW308T-STM32F]] • [[CW308T-D2000]] • [[CW308T-SAM4L]] • [[CW308T-CC2538]] • [[CW308T-ESP32]] • [[CW308T-CEC1702]] • [[CW308T-K24F]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ATSAMR21]] • [[CW308T-ADUCM3029]] • [[CW308T-NRF52840]] • [[CW308T-LPC1343]] • [[CW308T-ATSAML11]] • [[CW308T-AURIX]] • [[CW308T-EFM32TG11]] • [[CW308T-EFM32GG11]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

Template:Hardware

2018-08-22T17:21:47Z

LCraig:

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-AVR]] • [[CW308T-XMEGA]] • [[CW308T-87C51]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]]
|-
! CW308 Targets (32-bit)
| [[CW308T-MPC5748G]] • [[CW308T-STM32F]] • [[CW308T-D2000]] • [[CW308T-SAM4L]] • [[CW308T-CC2538]] • [[CW308T-ESP32]] • [[CW308T-CEC1702]] • [[CW308T-K24F]] • [[CW308T-AURIX]] • [[CW308T-EFM32TG11]] • [[CW308T-EFM32GG11]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ATSAMR21]] • [[CW308T-ADUCM3029]] • [[CW308T-NRF52840]] • [[CW308T-LPC1343]] • [[CW308T-ATSAML11]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

CW308T-AURIX

2018-08-22T16:53:16Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

Template:Hardware

2018-08-22T16:43:45Z

LCraig:

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-AVR]] • [[CW308T-XMEGA]] • [[CW308T-87C51]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]]
|-
! CW308 Targets (32-bit)
| [[CW308T-MPC5748G]] • [[CW308T-STM32F]] • [[CW308T-D2000]] • [[CW308T-SAM4L]] • [[CW308T-CC2538]] • [[CW308T-ESP32]] • [[CW308T-CEC1702]] • [[CW308T-K24F]] • [[CW308T-AURIX]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ATSAMR21]] • [[CW308T-ADUCM3029]] • [[CW308T-NRF52840]] • [[CW308T-LPC1343]] • [[CW308T-ATSAML11]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

CW308T-LPC1343

2018-08-22T16:26:42Z

LCraig:

CW308T-LPC1343

2018-08-22T16:03:45Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Microchip ATSAML11 microcontroller.

== Power Supply ==

The core of the SAML11 chip runs from a 1.2v supply. This is supplied through the CW308T 1.2v regulator. The I/O busses are supplied with 3.3v.
== Security Features ==

The SAML11 platform integrates many advanced security features including:
* Up to four tamper pins for static and dynamic intrusion detections
* Silent flash access for side channel attack resistance
* Data scrambling with user-defined keys for both Flash and RAM
* A True Random Number Generator
For a full list of security features see the product family data sheet<ref>http://ww1.microchip.com/downloads/en/DeviceDoc/SAM-L10L11%20Family-DataSheet%20-%20DS60001513B.pdf</ref>

== Programming ==

The SAML10/11 family implements a serial bootloader. Usage of this bootloader is not detailed in the data sheet, for usage information see Microchip Application note AN2699<ref>http://ww1.microchip.com/downloads/en/AppNotes/00002699A-UART%20Bootloader%20for%20SAM%20L10%20%20SAM%20L11.pdf</ref>.

Serial Wire Debug (SWD) is also supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-ATSAML11

2018-08-22T15:53:57Z

LCraig: /* Programming */ added programming details

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Microchip ATSAML11 microcontroller.

== Power Supply ==

The core of the SAML11 chip runs from a 1.2v supply. This is supplied through the CW308T 1.2v regulator. The I/O busses are supplied with 3.3v.
== Security Features ==

The SAML11 platform integrates many advanced security features including:
* Up to four tamper pins for static and dynamic intrusion detections
* Silent flash access for side channel attack resistance
* Data scrambling with user-defined keys for both Flash and RAM
* A True Random Number Generator
For a full list of security features see the product family data sheet<ref>http://ww1.microchip.com/downloads/en/DeviceDoc/SAM-L10L11%20Family-DataSheet%20-%20DS60001513B.pdf</ref>

== Programming ==

The SAML10/11 family implements a serial bootloader. Usage of this bootloader is not detailed in the data sheet, for usage information see Microchip Application note AN2699<ref>http://ww1.microchip.com/downloads/en/AppNotes/00002699A-UART%20Bootloader%20for%20SAM%20L10%20%20SAM%20L11.pdf</ref>.

Serial Wire Debug (SWD) is also supported for programming and debugging applications.
== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-ATSAML11

2018-08-22T15:48:26Z

LCraig: Initial details

CW308T-ATSAML11

2018-08-22T15:35:47Z

LCraig:

CW308T-ADUCM3029

2018-08-22T15:35:21Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Analog Devices ADuCM3029 microcontroller. The mounted chip is the ADUCM3029BCPZ.

== Power Supply ==

The ADuCM3029 can run from a core supply voltage between 1.8 and 3.3 volts. By default the core is fed from the 3.3v supply but the adjustable regulator on the CW308T can be used to set any viable core voltage. Sometimes power analysis is more viable at different supply voltages.

== Cryptographic Accelerator ==

As described in the ADuCM3027/3029 Data Sheet<ref>http://www.analog.com/media/en/technical-documentation/data-sheets/ADuCM3027_3029.pdf</ref>, The cryptographic accelerator is a 32-bit APB DMA capable peripheral. There are two 32-bit buffers provided for data input/output operations. These buffers read in or read out 128 bits in four data accesses. Big endian and little endian data formats are supported, as are the following modes:
* Electronic code book (ECB) mode—
* AES mode (128 and 256)
* Counter (CTR) mode
* Cipher block chaining (CBC) mode
* Message authentication code (MAC) mode
* Cipher block chaining-message authentication code (CCM/CCM) mode
* SHA-256 mode

== Programming ==

The ADuCM3029 supports a serial bootloader which is enabled by pulling down the PDIC pin on the CW308T. Details for using the serial bootloader can be found in the application note EE-381<ref>http://www.analog.com/media/en/technical-documentation/application-notes/EE381v01.pdf</ref>. Single wire debug (SWD) is also supported for programming and debugging.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-ATSAML11

2018-08-22T15:34:35Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Analog Devices ADuCM3029 microcontroller. The mounted chip is the ADUCM3029BCPZ.

== Power Supply ==

The ADuCM3029 can run from a core supply voltage between 1.8 and 3.3 volts. By default the core is fed from the 3.3v supply but the adjustable regulator on the CW308T can be used to set any viable core voltage. Sometimes power analysis is more viable at different supply voltages.

== Cryptographic Accelerator ==

As described in the ADuCM3027/3029 Data Sheet<ref>http://www.analog.com/media/en/technical-documentation/data-sheets/ADuCM3027_3029.pdf</ref>, The cryptographic accelerator is a 32-bit APB DMA capable peripheral. There are two 32-bit buffers provided for data input/output operations. These buffers read in or read out 128 bits in four data accesses. Big endian and little endian data formats are supported, as are the following modes:
* Electronic code book (ECB) mode—
* AES mode (128 and 256)
* Counter (CTR) mode
* Cipher block chaining (CBC) mode
* Message authentication code (MAC) mode
* Cipher block chaining-message authentication code (CCM/CCM) mode
* SHA-256 mode

== Programming ==

The ADuCM3029 supports a serial bootloader which is enabled by pulling down the PDIC pin on the CW308T. Details for using the serial bootloader can be found in the application note EE-381<ref>http://www.analog.com/media/en/technical-documentation/application-notes/EE381v01.pdf</ref>. Single wire debug (SWD) is also supported for programming and debugging.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-ADUCM3029

2018-08-22T15:31:18Z

LCraig:

Template:Hardware

2018-08-22T15:27:50Z

LCraig:

<div id="contents-footer" class="hlist plainlinks selfreference mw-collapsible" style="font-size:100%; margin-top:5px; border:1px solid {{{1|#B8C7D9}}}; background-color:{{{2|#E6F2FF}}}; padding:1em; text-align:left">
<div style="font-size:140%; font-weight:bold">ChipWhisperer Hardware</div>
<div class="mw-collapsible-content" style="font-size:100%>
{| class="wikitable"
|-
! style="width:10%" | Capture
| style="width:90%" | [[CW1173 ChipWhisperer-Lite]] • [[CW1200 ChipWhisperer-Pro]]
|-
! Targets
| [[CW303 XMEGA Target]] • [[CW304 Notduino Target]] • [[CW305 Artix FPGA Target]] • [[CW308 UFO Target]]
|-
! CW308 Targets (Other)
| [[CW308T-GENERIC]] • [[CW308T-S6LX9]]
|-
! CW308 Targets (8/16-bit)
| [[CW308T-AVR]] • [[CW308T-XMEGA]] • [[CW308T-87C51]] • [[CW308T-MEGARF]] • [[CW308T-MSP430FR5]]
|-
! CW308 Targets (32-bit)
| [[CW308T-MPC5748G]] • [[CW308T-STM32F]] • [[CW308T-D2000]] • [[CW308T-SAM4L]] • [[CW308T-CC2538]] • [[CW308T-ESP32]] • [[CW308T-CEC1702]] • [[CW308T-K24F]]
|-
! CW308 Targets BETA (32-bit)
| [[CW308T-ATSAMR21]] • [[CW308T-ADUCM3029]] • [[CW308T-NRF52840]] • [[CW308T-LPC1343]] • [[CW308T-ATSAML11]]
|-
! 3rd Party Targets
| [[SAKURA-G Target]] • [[SASEBO-GII Target]] • [[SASEBO-W Target]] • [[Breadboard Arduino Target]]
|-
! Test Equipment
| [[PicoScope (USB Scope)]] • [[VISA Connected Oscilloscope]]
|-
! Tools
| [[CW501 Differential Probe]] • [[CW502 Low Noise Amplifier]] • [[CW503 Probe Power Supply]] • [[CW505 Planar H-Field Probe]] • [[CW506 Advanced Breakout Board]] • [[CW508 SMA Analog Filters]]
|-
! Other Boards
| [[Clock Recovery Board]] • [[802.15.4 8-bit SoC Test Board]]
|-
! Obsolete
| [[CW1002 ChipWhisperer Capture Rev2]] • [[CW301 Multi-Target]]
|}
</div></div>

CW308T-ADUCM3029

2018-08-22T15:20:24Z

LCraig:

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture =
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications =
|Status = In Developement
}}

This board supports the Analog Devices ADuCM3029 microcontroller. The mounted chip is the ADUCM3029BCPZ.

== Power Supply ==

The ADuCM3029 can run from a core supply voltage between 1.8 and 3.3 volts. By default the core is fed from the 3.3v supply but the adjustable regulator on the CW308T can be used to set any viable core voltage. Sometimes power analysis is more viable at different supply voltages.

== Cryptographic Accelerator ==

As described in the ADuCM3027/3029 Data Sheet<ref>http://www.analog.com/media/en/technical-documentation/data-sheets/ADuCM3027_3029.pdf</ref>, The cryptographic accelerator is a 32-bit APB DMA capable peripheral. There are two 32-bit buffers provided for data input/output operations. These buffers read in or read out 128 bits in four data accesses. Big endian and little endian data formats are supported, as are the following modes:
* Electronic code book (ECB) mode—
* AES mode (128 and 256)
* Counter (CTR) mode
* Cipher block chaining (CBC) mode
* Message authentication code (MAC) mode
* Cipher block chaining-message authentication code (CCM/CCM) mode
* SHA-256 mode

== Programming ==

The ADuCM3029 supports a serial bootloader which is enabled by pulling down the PDIC pin on the CW308T. Details for using the serial bootloader can be found in the application note EE-381<ref>http://www.analog.com/media/en/technical-documentation/application-notes/EE381v01.pdf</ref>. Single wire debug (SWD) is also supported for programming and debugging.

== Schematic and Layout ==

See GIT Repo for design files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-ADUCM3029

2018-08-22T15:17:21Z

LCraig: programming details

CW308T-ADUCM3029

2018-08-22T15:12:11Z

LCraig: Added Crypto accelerator details

CW308T-ADUCM3029

2018-08-22T15:08:57Z

LCraig: Initial Page add. Still mostly placeholder

CW308T-ADUCM3029

2018-08-22T14:27:36Z

LCraig:

CW308T-ADUCM3029

2018-08-22T14:26:11Z

LCraig: Created page with "{{Infobox cw308target |name = CW308T-ADUCM3029 |image = SAM4L-Top-small.jpg |caption = |Target Device = Atmel SAM4L..."

{{Infobox cw308target
|name = CW308T-ADUCM3029
|image = SAM4L-Top-small.jpg
|caption =
|Target Device = Atmel SAM4L
|Target Architecture = ARM Cortex M4
|Hardware Crypto = Yes
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/cw308_ufo_target/sam4l GITHub Link]

[https://oshpark.com/projects/Dkr9ybuJ OSH Park PCBs]
|Supported Applications = [[SimpleSerial | Simple Serial Enc/Auth]]
|Status = Released
}}

This board supports the Atmel SAM4L microcontroller. The default build has the Atmel ATSAM4LC2AA-AU, which has 128KB flash and 32KB SRAM.

== Power Supply ==

The Atmel SAM4L has an internal 1.8V regulator. This regulator is not used in the board, instead power for the core is supplied by an external LDO on the UFO board. Be sure to enable the 1.8V and 3.3V regulators on the UFO board for the SAM4L board to function.

== Hardware AES ==

The SAM4L has a hardware AES module, with optional countermeasures that can be enabled. These countermeasures are described in the SAM4L datasheet as the following options:

* Type 1: Randomly add one cycle to data processing
* Type 2: Randomly add one cycle to data processing (other version)
* Type 3: Add a random number of clock cycles to data processing, subject to a maximum of 11 clock cycles for key size of 128 bits
* Type 4: Add random spurious power consumption during data processing

Interestingly they can be individually enabled/disabled. This makes the SAM4L a useful training target for power analysis attacks against various hardware countermeasures.

== Programming ==

An external programmer is needed for this target. The SAM4L has an internal bootloader you can use via an external serial port, which is not yet supported directly by the ChipWhisperer-Capture software.

=== JTAG Programmer ===

The 20-pin JTAG port (J6 on CW308 Board) can be used with the [https://www.digikey.com/product-detail/en/microchip-technology/ATATMEL-ICE/ATATMEL-ICE-ND/4753379 ATATMEL-ICE] which is Atmel's JTAG programmer. You can use any other ARM programmer you might have as well (i.e., OpenOCD, Segger J-Link, etc).

[[File:sam_jtag_small.jpg|400px]]

=== Using Atmel SAM-BA ===

Atmel SAM4L has a built-in bootloader. Not this bootloader is NOT ROM-Resident - if you reprogram the device the bootloader is lost, since it is stored in flash memory. It is recommended to use an external JTAG programmer for this target, as since the bootloader is not ROM-resident it can easily be overwritten by accident (i.e., if connecting a JTAG programmer).

== SimpleSerial Program ==

The SimpleSerial-AES program can be built for this target. This can use either hardware crypto or a software AES. This project is currently built via the Atmel Studio IDE, and the project file is located at [https://github.com/newaetech/chipwhisperer/tree/develop/hardware/victims/firmware/simpleserial-aes/ide_projects/asf/sam4l-simpleserial-aes hardware/victims/firmware/simpleserial-aes/ide_projects/asf/sam4l-simpleserial-aes] with the ChipWhisperer release.

If an Atmel ICE is attached as above, you should be able to build and run the example in 'debug' mode:

[[File:sam4l_ide.png|400px]]

An automatically generated makefile can be modified to built in Linux, but currently has not been integrated into the rest of the system. This makefile is checked into the GIT repository.

=== Adjusting Hardware AES ===

Inside the file ''hwaes.c'' you will find the AES hardware initilization. This is given in the following code sample:

<syntaxhighlight lang=c>
void aes_init(void)
{
periclk_aesa_init();
SCIF->SCIF_GCCTRL[AESA_GCLK_NUM].SCIF_GCCTRL = SCIF_GCCTRL_OSCSEL(GENCLK_SRC_CLK_CPU) | SCIF_GCCTRL_CEN;

/* AES Enable */
AESA->AESA_CTRL = AESA_CTRL_ENABLE | AESA_CTRL_NEWMSG; /* Enable, auto-accept new messages */

//Use with debugger to check PARAMETER register value
//volatile uint32_t param = AESA->AESA_PARAMETER;

/* AES Mode */
AESA->AESA_MODE = AESA_MODE_ENCRYPT | (AESA_MODE_CTYPE(0x0F)); /* Encrypt Mode, with all countermeasures */
//AESA->AESA_MODE = AESA_MODE_ENCRYPT; /* Encrypt Mode, without countermeasures */

/* Setup random seed for countermeasures to work */
AESA->AESA_DRNGSEED = 0xDEADBEEF; //A very random number
}
</syntaxhighlight>

Note there are two options shown, where countermeasures can be enabled or disabled. You can see the SAM4L datasheet for a description of the countermeasures. The following compares the power traces with and without countermeasures:

The following shows countermeasures enabled, you can see various execution paths taken during the encryption:

[[File:sam4l_wcountermeasures.png|600px]]

Compare this to the countermeasures disabled:

[[File:sam4l_nocountermeasures.png|600px]]

== Schematic ==

See GIT Repo for PDF of schematic.

[[File:CW308T-SAM4L-02_schematic_Page_1.png|1000px]]

[[File:CW308T-SAM4L-02_schematic_Page_2.png|1000px]]

== Board Layout ==

See GIT Repo for gerber files.

== Hardware ==

{{Template:Hardware}}
[[Category:CW308 Targets]]

CW308T-MPC5748G

2017-10-04T18:15:41Z

LCraig: Format Unification

{{Warningbox|This is a BETA target and not yet available. This wiki page will continue to be updated until release. }}

{{Infobox cw308target
|name = CW308T-MPC5748G
|image = mpc5748g_web.jpg
|caption =
|Target Device = NXP MPC5748G
|Target Architecture = PowerPC, Triple-Core
|Hardware Crypto = Possible
|Purchase Hardware =
|Design Files =
|Supported Applications =
}}

The MPC5748G target uses the NXP MPC5748G device, which is a triple-core PowerPC microcontroller for automotive applications. This target board has a number of interesting features including:

* Two CAN interfaces, with with DB9.
* Two serial ports (usable as LIN).
* Various solder jumpers for variety of power analysis options.

Intended Usage

Overview of Features

Demo Application

The demo application provides examples of:
* Using serial interface (implements Simple-Serial).
* Using CAN interface.
* Enabling all three cores, and communicating between cores with shared memory.
* Running software AES on main core.
* Running password-check (XOR) on main core.
* Setup of clock network for using external clock from ChipWhisperer.
* Communicating with Hardware Security Module (HSM) using our proprietary library (access to library requires NDA).

== Offered Variants ==
The product is available in three main variants. Initially only the "NORMAL" variant will be available to simplify exporting procedures.

* The "NORMAL" variant. This variant has the following setup:
** HSM is programmed with authentication-only code using hardware AES-128 (i.e., the ciphertext output is NOT available). This simplifies export processing, but the HSM code memory section CANNOT be changed or viewed. The HSM source code is not available due to NDA requirements. A special binary-only library is required to communicate with the HSM.
** The four OTP password groups have been programmed. 3 of them are known passwords you can use for experimentation, 1 is a secret unknown password used to lock the HSM code (NB: we set each device with a unique random password, so could not recover it even if we want to).
** Device lifecycle is progressed to the "OEM Production" stage. This will prevent you from doing certain updates to the memory, but for most "normal" uses will not prevent reloading of code etc.
** A simple serial bootloader is present. This bootloader is locked (to prevent overwrite) with one of the known passwords.
** The demo application is loaded.
** Device censorship is disabled (this can be turned on using an external programmer).
** The JTAG port has a known password, but is not locked (this can be turned on using an external programmer).

* The "ENC" variant:
** This variant is the same as above, BUT the HSM supports encryption (not just authentication).
** This devices will REQUIRE export documentation which entails an additional cost per order + a 1-6 week delay (dependent on Canadian processing time, normally it's faster). You may have additional restrictions at import but we cannot assist with those.

* The "RAW" variant. This variant has the following setup:
** HSM is not programmed. We cannot provide details on this usage without a NDA.
** A simple serial bootloader is present.
** The demo application is loaded.
** This devices will REQUIRE export documentation which entails an additional cost per order + a 1-6 week delay (dependent on Canadian processing time, normally it's faster). You may have additional restrictions at import but we cannot assist with those.
Most users are suggested to use the "NORMAL" variant. This variant allows you to get running immediately with our demo applications, and also program your own code into the device.

== HSM Support ==

The Hardware Security Module (HSM) is a completely separate core (in addition to the 3 power-PC cores) present in these devices. It has a variety of features to allow secure coding. has been programmed with simple code that allows you to perform the following two operations:
* Hardware AES using accelerator built into chip.
* Software AES (for comparison purposes).
Note details of the HSM are not available. We have programmed the HSM with code to perform the above operations. In order to talk to the HSM you require a separate interface, which we provide in a binary-only "library" (RAM-based functions). This library does not actually contain any details of the HSM core itself (the code in that library runs on the main core).

== Programming ==

The device is designed to use an external programmer, but does come with a basic serial bootloader. Details forthcoming.

[[Category: CW308 Targets]]

CW308T-MSP430FR5

2017-10-04T18:15:01Z

LCraig: Format Unification

{{Warningbox|This is a BETA target and not yet available. This wiki page will continue to be updated until release. Gerbers are available in the GIT repo if you live dangerously. }}

{{Infobox cw308target
|name = CW308T-MSP430FR5
|image = File:msp430fr5xxx_target.jpg
|caption =
|Target Device = TI MSP430FR5{8/9}69
|Target Architecture = 16-bit Harvard
|Hardware Crypto = Possible
|Purchase Hardware =
|Design Files = [https://github.com/newaetech/chipwhisperer/tree/master/hardware/victims/cw308_ufo_target/msp430 GITHub link]
|Supported Applications =
|Programmer = TI MSP Programmer
|Status = Released
}}

== Hardware Description ==
This target board is designed to experiment with the MSP430FR5969 (which has hardware AES), and MSP430FR5869 (without hardware AES). The same footprint can be used with both parts - the MSP430FR5869 has the advantage of being easier to export due to a lack of cryptographic modules present.

The device can be programmed with an external programmer using JTAG or Spy-Bi-Wire, or from the ChipWhisperer software using the serial BSL (Bootstrap Loader). Using BSL requires an entry sequence that can be generated by ChipWhisperer-Capture hardware.

== Side Channel Attacks ==

Many considerations of side-channel attacks on the MSP430FR5969 have been presented by Amir Moradi and Gesine Hinterwalder in their paper [https://eprint.iacr.org/2015/199.pdf Side-Channel Security Analysis of Ultra-Low-Power FRAM-based MCUs], which was presented at [http://link.springer.com/chapter/10.1007%2F978-3-319-21476-4_16 COSADE 2015]. This includes considerations on the architecture of these devices, and also presents an attack against the hardware AES peripheral. The hardware attack has not yet been replicated on the ChipWhisperer-Lite hardware, but this section will be updated once that occurs.

==Build Environment==

The examples are designed to be built with GCC for the MSP430 (msp430-elf-gcc). You can download a build of GCC from [http://www.ti.com/tool/msp430-gcc-opensource TI's website], although you may also have a build from another location. Downloading from TI will require registering & agreeing to some export control conditions. The following assumes you have installed this version of GCC.

If you want to use an external programmer, you can also download a [http://www.ti.com/tool/msp430-flasher Command-Line MSP430Flasher program].

=== Include File Location ===

Currently, the provided GCC does not seem to add the MSP430 header files as a default include location. Instead you must specify the location of these files in the Makefile - on Windows for example this defaults to <code>C:\ti\msp430_gcc\include</code> . You will see one of the first lines of the Makefile specifies this path:
INC_PATH = C:/ti/msp430_gcc/include/

=== Batch File for Building ===
When running make, you'll need to have the msp430-gcc files on your system path. Rather than modifying your path, you may wish to make a batch file with the path on it. For Windows you can call this file <code>tigcc.bat</code>, and for example the following shows including both GCC and the flasher program:
set PATH=%PATH%;C:\ti\msp430_gcc\bin;C:\ti\MSPFlasher_1.3.10<br>
cmd
Double-clicking on this file should give you a command prompt which now has tools like <code>make</code> and <code>msp430-elf-gcc</code> in the path:

[[File:msp430_cmd_make.png|600px]]

== Example Projects ==

== Using JTAG Programmer ==

The ChipWhisperer does not contain a JTAG programmer, but you can use any MSP430 programmer instead. If you don't already have one, a cheap/easy solution is to purchase a MSP-EXP430FR5969 which is TI's MSP430FR5969 development kit. It contains an integrated debugger/programmer which uses the 2-wire JTAG protocol.

To interface to the chip, remove the jumpers connecting to the target section labeled RST and TST. Then using jumper wires connect these to SBWTDIO and SBWTCLK respectively, as shown here (also be sure to connect a ground reference):

Note if using the MSP430-BSL target on the ChipWhisperer-Lite it will control the RST/TST lines as well, so you'll have to tristate those lines from the ChipWhisperer-Lite.

== Schematic ==

NOTE: Schematic is marked as unapproved until hardware has been fully validated.

[[File:CW308T_MSP430FR5xxx_Schematic.png|1000px]]

See GIT Repo for PDF of schematic.

== Board Layout ==

See GIT Repo for gerber files.

{{Template:Hardware}}
[[Category: CW308 Targets]]