M100PF - SoM featuring Microsemi PolarFire FPGALow Power Mid-Range FPGA for Industrial Application The M100PF SoM family spans from 100K logic elements (LEs) to 300K LEs, features 12.7G transceivers and offers up to 50% lower power than competing mid-range FPGAs. The devices are ideal for a wide range of applications within wireline access networks and cellular infrastructure, defense and commercial aviation markets, as well as industrial automation and IoT markets.PolarFire FPGAs offer various device features such as design security, low power devices and data security. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers. The M100PF combines most FPGA features on a 74mmx42mm footprint, the board-to-board interconnect is implemented by using two high-quality connectors which expose 360pins. The SoM is available in both the commercial temperature range 0°C...+70°C as well as in the industrial temperature range -40°C....+85°C. Features: PolarFire FPGA MPF100T109KLE, 336 Math Blocks (18x18MACC) 256 MiB configuration device1GB DDR3 SDRAM 4 GiB eMMC memory 8 SERDES Lanes, 250Mbps to 12.5Gbps 2 PCIe Gen2 End Points/Root Ports rich user I/O Clock distribution single 3,3V supply size 74mmx42mm 2 x Samtec QSH-090-01-F-D-A board-to-board interconnect 0°C...+70°C   RISC-V Softcores M100PF is supported by  a comprehensive suite of software tool chains and IP cores for your FPGA designs. The Libero SoC and SoftConsole development environments together provide all the required tools to port RISC-V Soft CPUs on Microsemi's FPGA portfolio and develop, test and debug embedded firmware. Your RISC-V FPGA projects starts in a few minutes M100PF- versatile usability at its best M100PF is of course one of the most flexible System on Module in the embedded market. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers High Flexibility Maximum flexibility for using the SoM  with 'exotic' interface requirements. Combining standard IP cores like i.e. display-controller, Ethernet, CAN, serial, I²C, SPI, etc, unique SoM configurations can be used. Benefit from the variety of freely available IP-cores, or, create your own. Robust and Reliable High-quality connector suitable for high frequency signals and applications in harsh environments. Use a well designed System on Module with sufficient ressources in terms of performance, interfaces and memory

M100PF - SoM featuring Microsemi PolarFire FPGALow Power Mid-Range FPGA for Industrial Application The M100PF SoM family spans from 100K logic elements (LEs) to 300K LEs, features 12.7G transceivers and offers up to 50% lower power than competing mid-range FPGAs. The devices are ideal for a wide range of applications within wireline access networks and cellular infrastructure, defense and commercial aviation markets, as well as industrial automation and IoT markets.PolarFire FPGAs offer various device features such as design security, low power devices and data security. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers. The M100PF combines most FPGA features on a 74mmx42mm footprint, the board-to-board interconnect is implemented by using two high-quality connectors which expose 360pins. The SoM is available in both the commercial temperature range 0°C...+70°C as well as in the industrial temperature range -40°C....+85°C. Features: PolarFire FPGA  MPF200T192KLE, 588 Math Blocks (18x18MACC) 256 MiB configuration device 1GB DDR3 SDRAM 4 GiB eMMC memory 8 SERDES Lanes, 250Mbps to 12.5Gbps 2 PCIe Gen2 End Points/Root Ports rich user I/O Clock distribution single 3,3V supply size 74mmx42mm 2 x Samtec QSH-090-01-F-D-A board-to-board interconnect 0°C...+70°C   RISC-V Softcores M100PF is supported by  a comprehensive suite of software tool chains and IP cores for your FPGA designs. The Libero SoC and SoftConsole development environments together provide all the required tools to port RISC-V Soft CPUs on Microsemi's FPGA portfolio and develop, test and debug embedded firmware. Your RISC-V FPGA projects starts in a few minutes M100PF- versatile usability at its best M100PF is of course one of the most flexible System on Module in the embedded market. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers High Flexibility Maximum flexibility for using the SoM  with 'exotic' interface requirements. Combining standard IP cores like i.e. display-controller, Ethernet, CAN, serial, I²C, SPI, etc, unique SoM configurations can be used. Benefit from the variety of freely available IP-cores, or, create your own. Robust and Reliable High-quality connector suitable for high frequency signals and applications in harsh environments. Use a well designed System on Module with sufficient ressources in terms of performance, interfaces and memory

M100PF - SoM featuring Microsemi PolarFire FPGALow Power Mid-Range FPGA for Industrial Application The M100PF SoM family spans from 100K logic elements (LEs) to 300K LEs, features 12.7G transceivers and offers up to 50% lower power than competing mid-range FPGAs. The devices are ideal for a wide range of applications within wireline access networks and cellular infrastructure, defense and commercial aviation markets, as well as industrial automation and IoT markets.PolarFire FPGAs offer various device features such as design security, low power devices and data security. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers. The M100PF combines most FPGA features on a 74mmx42mm footprint, the board-to-board interconnect is implemented by using two high-quality connectors which expose 360pins. The SoM is available in both the commercial temperature range 0°C...+70°C as well as in the industrial temperature range -40°C....+85°C. Features: PolarFire FPGA MPF300T300KLE, 924 Math Blocks (18x18MACC) 256 MiB configuration device 1GB DDR3 SDRAM 4 GiB eMMC memory 8 SERDES Lanes, 250Mbps to 12.5Gbps 2 PCIe Gen2 End Points/Root Ports rich user I/O Clock distribution single 3,3V supply size 74mmx42mm 2 x Samtec QSH-090-01-F-D-A board-to-board interconnect 0°C...+70°C   RISC-V Softcores M100PF is supported by  a comprehensive suite of software tool chains and IP cores for your FPGA designs. The Libero SoC and SoftConsole development environments together provide all the required tools to port RISC-V Soft CPUs on Microsemi's FPGA portfolio and develop, test and debug embedded firmware. Your RISC-V FPGA projects starts in a few minutes M100PF- versatile usability at its best M100PF is of course one of the most flexible System on Module in the embedded market. All PolarFire FPGAs are integrated with multi-protocol industry-leading low-power transceivers High Flexibility Maximum flexibility for using the SoM  with 'exotic' interface requirements. Combining standard IP cores like i.e. display-controller, Ethernet, CAN, serial, I²C, SPI, etc, unique SoM configurations can be used. Benefit from the variety of freely available IP-cores, or, create your own. Robust and Reliable High-quality connector suitable for high frequency signals and applications in harsh environments. Use a well designed System on Module with sufficient ressources in terms of performance, interfaces and memory

The M100PFS is based on the PolarFire SoC FPGA architecture by Microchip and combines high-performance 64-bit RISC-V cores with outstanding FPGA technology. The platform integrates a hardened real-time, Linux capable, RISC-V-based MPU subsystem on the mid-range PolarFire FPGA family, bringing low power consumption, thermal efficiency and defence grade security to embedded systems. The RISC-V CPU micro-architecture implementation is a simple 5 stage, single issue, in-order pipeline that doesn’t suffer from the Meltdown and Spectre exploits found in common out-of-order machines. All five CPU cores are coherent with the memory subsystem allowing a versatile mix of deterministic real time systems and Linux in a single multi-core CPU cluster. Order Code M100PFS-025A0A0E-1 MPFS025T PolarFire SoC FPGA 23 KLEs 68 Math Blocks (18x18 MACC) 4x 12.7 Gbps SERDES lanes 2x PCIe Gen2 end points/root points Total User I/O: MSS-IO / HSIO / GPIO / XCVRs: 108 / 60 / 48 / 4 1GB DDR4 SDRAM dedicated to the HMS No DDR4 SDRAM dedicated to the FPGA No SPI NOR Flash 4 GB eMMC size 74mm x 42mm 2 x Samtec QSH-090-01-F-D-A board-to-board interconnect 0°C...+70°C  Contact ARIES Embedded for Special Features and early Access

The M100PFS is based on the PolarFire SoC FPGA architecture by Microchip and combines high-performance 64-bit RISC-V cores with outstanding FPGA technology. The platform integrates a hardened real-time, Linux capable, RISC-V-based MPU subsystem on the mid-range PolarFire FPGA family, bringing low power consumption, thermal efficiency and defence grade security to embedded systems. The RISC-V CPU micro-architecture implementation is a simple 5 stage, single issue, in-order pipeline that doesn’t suffer from the Meltdown and Spectre exploits found in common out-of-order machines. All five CPU cores are coherent with the memory subsystem allowing a versatile mix of deterministic real time systems and Linux in a single multi-core CPU cluster. Order Code M100PFS-250BAAB-1 MPFS250T PolarFire SoC FPGA 254 KLEs 784 Math Blocks (18x18 MACC) 16x 12.5 Gbps SERDES lanes 2x PCIe Gen2 end points/root points Total User I/O: MSS-IO / HSIO / GPIO / XCVRs: 136 / 60 / 48 / 4 2GB DDR4 SDRAM dedicated to the HMS 512 MB DDR4 SDRAM dedicated to the FPGA 32 MB SPI NOR Flash 4 GB eMMC size 74mm x 42mm 2 x Samtec QSH-090-01-F-D-A board-to-board interconnect 0°C...+70°C  Contact ARIES Embedded for Special Features

5CSEBA2U23C8N  Altera SoC FPGA Dual CortexA9, 600MHz 4GByte eMMC Flash 1GByte DDR3 SDRAM 0°C...+70°C 360 pins on 2xQSH connectors 42x74 mm

5CSEBA6U23C7N   Altera SoC FPGA Dual CortexA9  800MHz 4GByte eMMC Flash 1GByte DDR3 SDRAM 0°C...+70°C 360 pins on 2xQSH connectors 42x74 mm

5CSXFC2C6U23C7N Altera SoC FPGA Dual CortexA9  800MHz 4GByte eMMC Flash 1GByte DDR3 SDRAM PCIe 0°C...+70°C 360 pins on 2xQSH connectors 42x74 mm

5CSXFC6C6U23C7N Altera SoC FPGA Dual CortexA9  800MHz 4GByte eMMC Flash 1GByte DDR3 SDRAM 0°C...+70°C 360 pins on 2xQSH connectors 42x74 mm

10CL055YU484I7G Cyclone 10 FPGA, 55KLE 2x128MBit HyperRAM 1GBit NVRAM Configuration device 256 Mbit Gigabit Ethernet Phy & connector 221 FPGA Pins

10CL055YU484I7G Cyclone 10 FPGA, 55KLE 512Mbit SDRAM Configuration device 256 Mbit Gigabit Ethernet Phy & connector 221 FPGA Pins

The Miami MPSoC Plus System on Module (SoM) is an embedded computer board, integrating all key functionalities to deliver a complete computing system, running e.g. Linux or FreeRTOS. The modules are based on Xilinx System on Chip 16nm technology, using Zynq Ultrascale+ ZU6/ZU9/ZU15.The module combines a high performance and high-density programmable logic with dedicated hardener IP blocks, such as DSP cores, memory controllers and PCIe endpoints. 747KLE, 3528  DSP Blöcke, 26.2Mb RAM, 682K FlipFlops, 341K LUTs CLB2x6Gbit/s PS tranceivers, 16x12.5Gbit/s GTH tranceivers Processor System   ARM Cortex-A53 MPCore Quad-core CPU Architecture up to 1.2GHz CPU Perfomance ARM Cortex-R5 (dual core) Real Time Processor ARM Mali -400 MP2 Graphics Processor 2/4/8 GByte DDR4 with/without ECC 32/64/72bits 0/8/16/32/64 GB pseudo-SLC or MLC eMMC 64/128/256 MB Quad SPI 32 Kbit I2C EEPROM storage Processor-Peripherals UART CAN I2C SPI FPD link SDI TFT HDMI DisplayPort 2xUSB 3.0 incl on-board ULPI media Debug UART Concole PS JTAG Ethernet rich I/O Clock distribution single 9-16 Vdc supply size 95mmx68,5mm 2 x 120 pins + 1x180 pins Samtec mezzanine board-to-board interconnect

The Miami MPSoC Plus System on Module (SoM) is an embedded computer board, integrating all key functionalities to deliver a complete computing system, running e.g. Linux or FreeRTOS. The modules are based on Xilinx System on Chip 16nm technology, using Zynq Ultrascale+ ZU6/ZU9/ZU15.The module combines a high performance and high-density programmable logic with dedicated hardener IP blocks, such as DSP cores, memory controllers and PCIe endpoints. 469KLE, 1973  DSP Blöcke, 25.1Mb RAM, 429K FlipFlops, 215K LUTs CLB2x6Gbit/s PS tranceivers, 16x12.5Gbit/s GTH tranceivers Processor System   ARM Cortex-A53 MPCore Quad-core CPU Architecture up to 1.2GHz CPU Perfomance ARM Cortex-R5 (dual core) Real Time Processor ARM Mali -400 MP2 Graphics Processor 2/4/8 GByte DDR4 with/without ECC 32/64/72bits 0/8/16/32/64 GB pseudo-SLC or MLC eMMC 64/128/256 MB Quad SPI 32 Kbit I2C EEPROM storage Processor-Peripherals UART CAN I2C SPI FPD link SDI TFT HDMI DisplayPort 2xUSB 3.0 incl on-board ULPI media Debug UART Concole PS JTAG Ethernet rich I/O Clock distribution single 9-16 Vdc supply size 95mmx68,5mm 2 x 120 pins + 1x180 pins Samtec mezzanine board-to-board interconnect

The Miami MPSoC Plus System on Module (SoM) is an embedded computer board, integrating all key functionalities to deliver a complete computing system, running e.g. Linux or FreeRTOS. The modules are based on Xilinx System on Chip 16nm technology, using Zynq Ultrascale+ ZU6/ZU9/ZU15.The module combines a high performance and high-density programmable logic with dedicated hardener IP blocks, such as DSP cores, memory controllers and PCIe endpoints. 600KLE, 2520  DSP Blöcke, 32.1Mb RAM, 548K FlipFlops, 274K LUTs CLB2x6Gbit/s PS tranceivers, 16x12.5Gbit/s GTH tranceivers Processor System   ARM Cortex-A53 MPCore Quad-core CPU Architecture up to 1.2GHz CPU Perfomance ARM Cortex-R5 (dual core) Real Time Processor ARM Mali -400 MP2 Graphics Processor 2/4/8 GByte DDR4 with/without ECC 32/64/72bits 0/8/16/32/64 GB pseudo-SLC or MLC eMMC 64/128/256 MB Quad SPI 32 Kbit I2C EEPROM storage Processor-Peripherals UART CAN I2C SPI FPD link SDI TFT HDMI DisplayPort 2xUSB 3.0 incl on-board ULPI media Debug UART Concole PS JTAG Ethernet rich I/O Clock distribution single 9-16 Vdc supply size 95mmx68,5mm 2 x 120 pins + 1x180 pins Samtec mezzanine board-to-board interconnect  

The Miami System on Module (SoM) is based on the Xilinx Zynq-7035/7045/7100 System on Chip (SoC). The module combines a high performance (ARM-based) application microprocessor with FPGA logic in a single chip. It integrates all system components required to bring the system alive including memory, power supply, debugging facilities and various connectivity options. It is a suitable platform for phased array ultrasound and radar applications, which require effective processing power, high speed communication and software defined radio. 275KLE, 900  DSP Blöcke, 17.6Mbit RAM, 343,800 FlipFlops, 16x10.3125Gb/s GTX tranceivers Processor System ARMCortex-A9 (Dual-Core) 2x800MHz CPU Perfomance Co-Processor 2xARM NEON 1 GB DDR3/DDR3L RAM (connected to FPGA) 1 GB DDR3/DDR3L RAM (connected to CPU) 64 MB 2xQuad SPI NOR 7 KB EEPROM (3KB secure storage, 4KB normal storage) Processor-Peripherals UART CAN I2C SPI USB 2.0 OTG 1000Mbps Ethernet 8xPCIe GEN2 SATA-3 User programmable/configurable Interfaces 49x + 47 + 48 configurable 1V8, 2V5 and 2V3 user I/O (HR) 48x configurable user I/O (HP) 28xPS controlled 1V8 I/O (MIO) 16xSATA-2/3 16x 40GB Ethernet 16x USB 3.0 16xPCIe GEN3/4 16xCoaXPress 16xHDMI Clock distribution single 15V/3A supply size 85mmx68,5mm 2 x 120 pins + 1x180 pins Samtec board-to-board interconnect + 3 pins connector for external Fan  

The Miami System on Module (SoM) is based on the Xilinx Zynq-7035/7045/7100 System on Chip (SoC). The module combines a high performance (ARM-based) application microprocessor with FPGA logic in a single chip. It integrates all system components required to bring the system alive including memory, power supply, debugging facilities and various connectivity options. It is a suitable platform for phased array ultrasound and radar applications, which require effective processing power, high speed communication and software defined radio. 444KLE, 2020 DSP Blöcke, 26.5Mbit RAM, 554,800 FlipFlops, 16x10.3125Gb/s GTX tranceivers Processor System ARMCortex-A9 (Dual-Core) 2x800MHz CPU Perfomance Co-Processor 2xARM NEON 1 GB DDR3/DDR3L RAM (connected to FPGA) 1 GB DDR3/DDR3L RAM (connected to CPU) 64 MB 2xQuad SPI NOR 7 KB EEPROM (3KB secure storage, 4KB normal storage) Processor-Peripherals UART CAN I2C SPI USB 2.0 OTG 1000Mbps Ethernet 8xPCIe GEN2 SATA-3 User programmable/configurable Interfaces 49x + 47 + 48 configurable 1V8, 2V5 and 2V3 user I/O (HR) 48x configurable user I/O (HP) 28xPS controlled 1V8 I/O (MIO) 16xSATA-2/3 16x 40GB Ethernet 16x USB 3.0 16xPCIe GEN3/4 16xCoaXPress 16xHDMI Clock distribution single 15V/3A supply size 85mmx68,5mm 2 x 120 pins + 1x180 pins Samtec board-to-board interconnect + 3 pins connector for external Fan

MAX 10 FPGA in F256 package module supports: 10M04DC programmable clock generator (25MHz XO) 100 FPGA GPIO pins, including 13 LVDS transmitters and 16 receivers programmable high-efficient PMIC, FPGA IO voltages are configurable Li-Ion charger (LTC4155) Temperature range: 0oC...+70oC Size: 70mm x 35mm

MAX 10 FPGA in F256 package module supports: 10M16DA 1 x ADC 4 GB e.MMC 128 MB DDR3 DRAM programmable clock generator (25MHz XO) and PLL (IDT5P49V5923) 100 FPGA GPIO pins, including 13 LVDS transmitters and 16 receivers programmable high-efficient PMIC, FPGA IO voltages are configurable Temperature range: 0oC...+70oC Size: 70mm x 35mm

MAX 10 FPGA in F256 package module supports: 10M08DA 1 x ADC programmable clock generator (25MHz XO) 100 FPGA GPIO pins, including 13 LVDS transmitters and 16 receivers programmable high-efficient PMIC, FPGA IO voltages are configurable Temperature range: 0oC...+70oC Size: 70mm x 35mm

MAX 10 FPGA in F256 package module supports: 10M50DA 2 x ADC 4 MB SPI NOR 4 GB e.MMC 128 MB DDR3 DRAM programmable clock generator (25MHz XO) and PLL (IDT5P49V5923) 100 FPGA GPIO pins, including 13 LVDS transmitters and 16 receivers RTC (MPC794xx) with battery backup programmable high-efficient PMIC, FPGA IO voltages are configurable Li-Ion charger (LTC4155) Temperature range: 0oC...+70oC Size: 70mm x 35mm

The SpiderSoM-L provides 10M02SC MAX10 FPGA 25MHz clock 130 GPIOs, 3,3V I/O voltage The SpiderSoM is a programmable, non-volatile solution based on Intel® MAX®10 FPGA, which enables it to deliver full-featured FPGA capabilities. The SpiderSoM can be used with the standard baseboard (SpiderBase) as a complete building block or can be plugged into existing designs and products as  functional part. It connects to its baseboard via a 230pins MXM2 connector and provides the ideal solution support for various soft-core CPUs, video-processing algorithms, etc.     The SpiderSoM is available as a low cost and extremely flexible platform which enables user to setup a running system according to the required specification in a very short time. SoM is based on the free and open design concept: KiCAD design files are available under CERN OHL v1.2.   USB Firmware for MX10 and SpiderSoM MX10 and SpiderSoM modules provide a USB device interface implemented with PIC16F1454 microcontroller (MCU). On the SoM side the MCU is connected to three interfaces: serial (if the other side is implemented inside the FPGA), I2C bus (connected to the module PMIC, charge controller, RTC and FPGA), and FPGA JTAG programming interface. On the host side Linux is supported as Operating System, currently Ubuntu16.04LTS is marked as a reference base. MAX 10 single voltage supply FPGA in U169 package module supports MAX 10 FPGAs from 10M02SC to 10M16SA optional 4 MiB SPI NOR optional 4 GiB e.MMC optional 8 MiB SDRAM FPGA GPIO pins optional RTC with battery backup optional Li-Ion/Li-Pol charger Size: 70mm x 35mm OS Support: FreeRTOSTM The SpiderSoM promotes the free and open design concept: KiCAD design files are available under CERN OHL v1.2. While the MX10 SoM targets the area of professional electronic designs in commercial applications the SpiderSoM was designed to be used in IoT Maker applications. Spider SoM configurations:     SpiderSoM-L SpiderSoM-S     FPGA 10M02SC MAX10 10M08SA MAX10     ADC - 1     Clock 25 MHz XO 25 MHz XO     DDR3 RAM - -     SPI NOR - 4MiB     e.MMC NAND Flash - -     RTC - -     GPIO/ LVDS TX/Rx 130/ 13/ 16 130/ 13/ 16     Li-Ion charger - -     I/O Voltage programmable 3.3V Temperature range 0oC ... +70oC 0oC ... +70oC     Size 70mm x 35mm 70mm x 35mm        

The SpiderSoM-S provides 10M08SA MAX10 FPGA 1 ADC 25MHz clock 4MiB SPI NOR 130 GPIOs, 3,3V I/O voltage The SpiderSoM is a programmable, non-volatile solution based on Intel® MAX®10 FPGA, which enables it to deliver full-featured FPGA capabilities. The SpiderSoM can be used with the standard baseboard (SpiderBase) as a complete building block or can be plugged into existing designs and products as  functional part. It connects to its baseboard via a 230pins MXM2 connector and provides the ideal solution support for various soft-core CPUs, video-processing algorithms, etc.     The SpiderSoM is available as a low cost and extremely flexible platform which enables user to setup a running system according to the required specification in a very short time. SoM is based on the free and open design concept: KiCAD design files are available under CERN OHL v1.2.   USB Firmware for MX10 and SpiderSoM MX10 and SpiderSoM modules provide a USB device interface implemented with PIC16F1454 microcontroller (MCU). On the SoM side the MCU is connected to three interfaces: serial (if the other side is implemented inside the FPGA), I2C bus (connected to the module PMIC, charge controller, RTC and FPGA), and FPGA JTAG programming interface. On the host side Linux is supported as Operating System, currently Ubuntu16.04LTS is marked as a reference base. MAX 10 single voltage supply FPGA in U169 package module supports MAX 10 FPGAs from 10M02SC to 10M16SA optional 4 MiB SPI NOR optional 4 GiB e.MMC optional 8 MiB SDRAM FPGA GPIO pins optional RTC with battery backup optional Li-Ion/Li-Pol charger Size: 70mm x 35mm OS Support: FreeRTOSTM The SpiderSoM promotes the free and open design concept: KiCAD design files are available under CERN OHL v1.2. While the MX10 SoM targets the area of professional electronic designs in commercial applications the SpiderSoM was designed to be used in IoT Maker applications. Spider SoM configurations:     SpiderSoM-L SpiderSoM-S     FPGA 10M02SC MAX10 10M08SA MAX10     ADC - 1     Clock 25 MHz XO 25 MHz XO     DDR3 RAM - -     SPI NOR - 4MiB     e.MMC NAND Flash - -     RTC - -     GPIO/ LVDS TX/Rx 130/ 13/ 16 130/ 13/ 16     Li-Ion charger - -     I/O Voltage programmable 3.3V Temperature range 0oC ... +70oC 0oC ... +70oC     Size 70mm x 35mm 70mm x 35mm