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HARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
ERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. CREATING AN FPGA ACCELERATOR IN 15 MINUTES Creating an FPGA accelerator in 15 minutes. The best kept secret of the Parallella board is probably that it includes a very capable FPGA from Xilinx. Until now, the FPGA has not seen significant use due to the big time investment needed to get started. I have created a small “hello world” toy example targeted for anyone interested in PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
ERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. CREATING AN FPGA ACCELERATOR IN 15 MINUTES Creating an FPGA accelerator in 15 minutes. The best kept secret of the Parallella board is probably that it includes a very capable FPGA from Xilinx. Until now, the FPGA has not seen significant use due to the big time investment needed to get started. I have created a small “hello world” toy example targeted for anyone interested in PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany. PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
PARALLELLA PROJECT HISTORY Open Docs: Complete architecture, chip, driver, library, tool and SDK documents must be available to all and published on the web.There should be no need for NDAs. Open Standards: Standards should be free and open to all.There should be no membership and/or licensing fees required to use standard. Open Choice: All APIs, libraries, standards should be multi-architecture to fight vendor lock-in. PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and BrowndeerPUBLICATIONS
Heraklion Crete, Greece, 17th-19th February 2016. Matthews, SJ. “ Teaching with Parallella: A First Look in an Undergraduate Parallel Computing Course “. Journal of Computing Sciences in Colleges, 31 (3), pp. 18-27. 2016. Note: Best Paper Award, CCSCEastern.
CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in 200 CHIP DEFINITIONS EVERYONE SHOULD KNOW FRAM: Non-volatile RAM based on ferroelectric layer. FPGA: Field-programmable gate array is a chip that can be reprogrammed “in the field”. FIFO: First in first out buffer. GPU: Integrated circuit for accelerating the creation of graphics on a display. DRAM: PARALLELLA: A SUPERCOMPUTER FOR EVERYONE PARALLELLA LAUNCHES AT 6pm, on September 27th. Initiative to Bring a $99 Parallel Supercomputing Platform to the Masses LEXINGTON, MA – September 27, 2012– Adapteva, a semiconductor start-up company, today announced the Parallella Kickstarter project to build an open and affordable, credit card-sized supercomputing platform that offers a 50x performance boost over THINGS I LEARNED WHILE DESIGNING THE EPIPHANY & PARALLELLA Adapteva Overview: Semiconductor company founded in 2008 64-core 28nm processor achieves 50 GFLOPS/W $900K “Parallella” Kickstarter funding 2012 $3.6M Series-B in 2013 (Ericsson) 10,000 customers and $2M revenue in 2014 (3,3) (0,0) IP CHIPS BOARDS 2 PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. EPIPHANY-V: A 1024 PROCESSOR 64-BIT RISC SYSTEM-ON-CHIP Epiphany-V: A 1024 processor 64-bit RISC System-On-Chip III. Architecture III.A Overview The Epiphany architecture is a distributed shared memory architecture comprised of an array of RISC PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon. PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. EPIPHANY-V: A 1024 PROCESSOR 64-BIT RISC SYSTEM-ON-CHIP Epiphany-V: A 1024 processor 64-bit RISC System-On-Chip III. Architecture III.A Overview The Epiphany architecture is a distributed shared memory architecture comprised of an array of RISCPARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA PROJECT HISTORY Open Docs: Complete architecture, chip, driver, library, tool and SDK documents must be available to all and published on the web.There should be no need for NDAs. Open Standards: Standards should be free and open to all.There should be no membership and/or licensing fees required to use standard. Open Choice: All APIs, libraries, standards should be multi-architecture to fight vendor lock-in.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power DEVELOPERS | PARALLELLA Sources. The SDK is jointly developed by Embecosm (toolchain) and Adapteva (everything else). The component sources are spread across multiple repositories hosted on GitHub, issues should be logged using the relevant issue tracker and pull requests are invited.. To build the eSDK start with the epiphany-sdk repository and see the associatedwiki.
POWER THE PARALLELLA Power the Parallella. Three ways to power the Parallella. 1. Via the barrel connector on the board (J12) 2. Via the Micro USB connector next to the barrel connector (J7) 3. Via the mounting hole pads.ERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. 200 CHIP DEFINITIONS EVERYONE SHOULD KNOW FRAM: Non-volatile RAM based on ferroelectric layer. FPGA: Field-programmable gate array is a chip that can be reprogrammed “in the field”. FIFO: First in first out buffer. GPU: Integrated circuit for accelerating the creation of graphics on a display. DRAM: THINGS I LEARNED WHILE DESIGNING THE EPIPHANY & PARALLELLA Adapteva Overview: Semiconductor company founded in 2008 64-core 28nm processor achieves 50 GFLOPS/W $900K “Parallella” Kickstarter funding 2012 $3.6M Series-B in 2013 (Ericsson) 10,000 customers and $2M revenue in 2014 (3,3) (0,0) IP CHIPS BOARDS 2 PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. EPIPHANY-V: A 1024 PROCESSOR 64-BIT RISC SYSTEM-ON-CHIP Epiphany-V: A 1024 processor 64-bit RISC System-On-Chip III. Architecture III.A Overview The Epiphany architecture is a distributed shared memory architecture comprised of an array of RISC PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. EPIPHANY-V: A 1024 PROCESSOR 64-BIT RISC SYSTEM-ON-CHIP Epiphany-V: A 1024 processor 64-bit RISC System-On-Chip III. Architecture III.A Overview The Epiphany architecture is a distributed shared memory architecture comprised of an array of RISCPARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA PROJECT HISTORY Open Docs: Complete architecture, chip, driver, library, tool and SDK documents must be available to all and published on the web.There should be no need for NDAs. Open Standards: Standards should be free and open to all.There should be no membership and/or licensing fees required to use standard. Open Choice: All APIs, libraries, standards should be multi-architecture to fight vendor lock-in.QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power DEVELOPERS | PARALLELLA Sources. The SDK is jointly developed by Embecosm (toolchain) and Adapteva (everything else). The component sources are spread across multiple repositories hosted on GitHub, issues should be logged using the relevant issue tracker and pull requests are invited.. To build the eSDK start with the epiphany-sdk repository and see the associatedwiki.
POWER THE PARALLELLA Power the Parallella. Three ways to power the Parallella. 1. Via the barrel connector on the board (J12) 2. Via the Micro USB connector next to the barrel connector (J7) 3. Via the mounting hole pads.ERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. 200 CHIP DEFINITIONS EVERYONE SHOULD KNOW FRAM: Non-volatile RAM based on ferroelectric layer. FPGA: Field-programmable gate array is a chip that can be reprogrammed “in the field”. FIFO: First in first out buffer. GPU: Integrated circuit for accelerating the creation of graphics on a display. DRAM: THINGS I LEARNED WHILE DESIGNING THE EPIPHANY & PARALLELLA Adapteva Overview: Semiconductor company founded in 2008 64-core 28nm processor achieves 50 GFLOPS/W $900K “Parallella” Kickstarter funding 2012 $3.6M Series-B in 2013 (Ericsson) 10,000 customers and $2M revenue in 2014 (3,3) (0,0) IP CHIPS BOARDS 2 PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon. PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon. PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany. PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
PARALLELLA PROJECT HISTORY Open Docs: Complete architecture, chip, driver, library, tool and SDK documents must be available to all and published on the web.There should be no need for NDAs. Open Standards: Standards should be free and open to all.There should be no membership and/or licensing fees required to use standard. Open Choice: All APIs, libraries, standards should be multi-architecture to fight vendor lock-in.PUBLICATIONS
Heraklion Crete, Greece, 17th-19th February 2016. Matthews, SJ. “ Teaching with Parallella: A First Look in an Undergraduate Parallel Computing Course “. Journal of Computing Sciences in Colleges, 31 (3), pp. 18-27. 2016. Note: Best Paper Award, CCSCEastern.
DEVELOPERS | PARALLELLA Sources. The SDK is jointly developed by Embecosm (toolchain) and Adapteva (everything else). The component sources are spread across multiple repositories hosted on GitHub, issues should be logged using the relevant issue tracker and pull requests are invited.. To build the eSDK start with the epiphany-sdk repository and see the associatedwiki.
IDEAS | PARALLELLA
1.3. NumPy/SciPy Many-Core Accelerator Support. Summary: NumPy/SciPy support for many-core accelerators would provide a significant performance boost for Python high-performance computing applications that make use of those libraries.The project would use the Parallella hardware platform and many-core programming infrastructure as a test and development vehicle.BLOG | PARALLELLA
OpenSHMEM 1.4 for Epiphany is available now as open source software on GitHub . Compared to the previous announcement , OpenSHMEM 1.4 provides new functionality for Epiphany including, but not limited to: Adding shmem_sync_all and shmem_sync to provide PE synchronization without completing pending communication operations Adding shmem_test function, which tests whether a variable onERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in PARALLELLA-1.X REFERENCE MANUAL I/O Peripherals and Interfaces: • 10/100/1000 tri-speed Ethernet MAC peripherals GMII, RGMII, and SGMII interfaces • Two USB 2.0 OTGperipherals
PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon. PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. PARALLELLAINTROQUICK STARTBLOGBUYOPEN SOURCE SOFTWAREOPEN SOURCEHARDWARE
The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet • 1GB SDRAM • Micro-SDstorage
PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany.PARALLELLA MODELS
Parallella-16 Micro Server. The Parallella-16 Micro Server Board is a cost effective bare-metal board for technical experts interested in parallel computing who want to use the board as an accelerator or standalone device in a client/server configuration, the Micro-Server unlocks the powerful capabilities of the Parallella-16 board and the Epiphany parallel processor via the gigabit Ethernet PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
BUYING A BOARD
Buying a board | Parallella. Parallella Microserver (P1600) Amazon, Digi-Key. Parallella Desktop (P1601) Amazon, Digi-Key. Parallella Embedded (P1602) Digi-Key. Porcupine Breakout Board. Digi-Key, Amazon. PROGRAMMING PARALLELLA A standardized interface to enable portable applications for partitioned global address space (PGAS) architectures. Maintained by Army Research Labs and Browndeer PARALLELLA INTRODUCTION The Parallella computer is a high performance, credit card sized computer based on the Epiphany multi-core chips from Adapteva. The Parallella can be used as a standalone computer, an embedded device or as a component in a scaled out parallel server cluster. The Parallella includes a low power dual core ARM A9 processor and runs several ofthe
QUICK START GUIDE
Quick Start Guide STEP 1: Acquire all accessories STEP 2: Create a bootable SD Card STEP 3: Read disclaimers STEP 4: Connect peripherals, heatsink, and apply power CREATING A BOOTABLE SD CARD 1. Insert the micro-SD card in your regular computer. 2. Unzip the Ubuntu image. $ gunzip -d .img.gz. 3. Verify the device path of your SD card. The exact device path to your SD card depends on your Linux distribution and computer setup. Using the command below to get theright path.
EPIPHANY-V: A 1024-CORE 64-BIT RISC PROCESSOR I am happy to report that we have successfully taped out a 1024-core Epiphany-V RISC processor chip at 16nm. The chip has 4.5 Billion transistors, which is 36% more transistors than Apple’s latest 4 core A10 processor at roughly the same die size. Compared to leading HPC processors, the chip demonstrates an 80x advantage in processor density and a 3.6x advantage in memory density. PARALLELLA OPEN SOURCE SOFTWARE OPENMP – Paralllla OpenMP port. STDCL – Epiphany STDCL programming framework. OPENCL -Epiphany OpenCL programming framework. BASIC – Basic interpreter for Epiphany. BSP – Bulk synchronous Parallel programming framework for parallella. ERLANG – Port of Erlang OTP for Epiphany. LISP – LISP interpreter for Epiphany. PARALLELLA OPEN SOURCE HARDWARE Parallella – Parallella single board computer (Zynq FPGA + Epiphany DSP) Meta Module – 16 Chip PCI104 Module. Meta Carrier – Carrier for the meta module (power, clocking) Myriad RF – Myriad RF plugin board for Parallella. Buddy – Breakout board for the Epiphany-V chip. ParaSDR – Parallella FMC adapter board for the AD9361 RFtranceiver.
PARALLELLA PROJECT HISTORY Open Docs: Complete architecture, chip, driver, library, tool and SDK documents must be available to all and published on the web.There should be no need for NDAs. Open Standards: Standards should be free and open to all.There should be no membership and/or licensing fees required to use standard. Open Choice: All APIs, libraries, standards should be multi-architecture to fight vendor lock-in.PUBLICATIONS
Heraklion Crete, Greece, 17th-19th February 2016. Matthews, SJ. “ Teaching with Parallella: A First Look in an Undergraduate Parallel Computing Course “. Journal of Computing Sciences in Colleges, 31 (3), pp. 18-27. 2016. Note: Best Paper Award, CCSCEastern.
DEVELOPERS | PARALLELLA Sources. The SDK is jointly developed by Embecosm (toolchain) and Adapteva (everything else). The component sources are spread across multiple repositories hosted on GitHub, issues should be logged using the relevant issue tracker and pull requests are invited.. To build the eSDK start with the epiphany-sdk repository and see the associatedwiki.
IDEAS | PARALLELLA
1.3. NumPy/SciPy Many-Core Accelerator Support. Summary: NumPy/SciPy support for many-core accelerators would provide a significant performance boost for Python high-performance computing applications that make use of those libraries.The project would use the Parallella hardware platform and many-core programming infrastructure as a test and development vehicle.BLOG | PARALLELLA
OpenSHMEM 1.4 for Epiphany is available now as open source software on GitHub . Compared to the previous announcement , OpenSHMEM 1.4 provides new functionality for Epiphany including, but not limited to: Adding shmem_sync_all and shmem_sync to provide PE synchronization without completing pending communication operations Adding shmem_test function, which tests whether a variable onERLANG | PARALLELLA
We at Erlang Solutions have had the pleasure of coming into contact with shiny Parallella board prototype and over the past few weeks we have been exploring how to utilise it as part of our experiments in the multicore domain. PARALLELLA UNIVERSITY PROGRAM UPDATE: The Parallella University Program has been discontinued as of 2016. With a $99 starting price and general availability from Amazon, Digikey, and RS components and shipping worldwide we feel that the need for a free hardware program has diminished and that our resources are best spent on providing better support. Over the life of the university program, we shipped over $25,000 in PARALLELLA-1.X REFERENCE MANUAL I/O Peripherals and Interfaces: • 10/100/1000 tri-speed Ethernet MAC peripherals GMII, RGMII, and SGMII interfaces • Two USB 2.0 OTGperipherals
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* INTRO
* QUICK START
* CODE__
* OPEN SOURCE SOFTWARE * OPEN SOURCE HARDWARE* DOCS__
* PARALLELLA MANUAL
* EPIPHANY REFERENCE MANUAL * PARALLELLA SCHEMATIC* E16G301 DATASHEET
* FORUM
* RESEARCH__
* PUBLICATIONS
* UNIVERSITY PROGRAM* BLOG
* ABOUT US__
* PURPOSE
* LICENSES
* BUY
* INTRO
* QUICK START
* CODE
* OPEN SOURCE SOFTWARE * OPEN SOURCE HARDWARE* DOCS
* PARALLELLA MANUAL
* EPIPHANY REFERENCE MANUAL * PARALLELLA SCHEMATIC* E16G301 DATASHEET
* FORUM
* RESEARCH
* PUBLICATIONS
* UNIVERSITY PROGRAM* BLOG
* ABOUT US
* PURPOSE
* LICENSES
* BUY
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The Parallella Board • 18-core credit card sized computer • #1 in energy efficiency @ 5W • 16-core Epiphany RISC SOC • Zynq SOC (FPGA + ARM A9) • Gigabit Ethernet• 1GB SDRAM
• Micro-SD storage • Up to 48 GPIO pins • HDMI, USB (optional) • Open source design files• Runs Linux
• >10,000 boards shipped• Starting at $99
LEARN MORE
> "It’s amazing that so much is packed into such a small size and > yet the connectors are still in relatively sane positions. On the > table it looks bigger than a credit card but holding them next to > each other the circuit board is exactly the same size sans the > rounded corners." > − Kickstarter Backer > "I’ve had lots of fun with the Parallella so far, and just wanted > to say thank you again for the chance to order one. I wish you all > the best for the future, and I’ll try to do my part for> promotion."
> − Kickstarter Backer > "The first impression is that the board is small, very small and > very dense. It appears at first a bit bigger than a credit card but > in fact the PCB is an exact match." > − Kickstarter Backer > "Your crew are amazing, genuinely awesome people. Thank you for > listening to the community and coming up with a solution that no > longer requires a fan and the Microserver edition. I’m sure most > of us will understand that it’s not always feasible to sell at a > particular price point and won’t begrudge Adapteva doing what it > can to stay afloat while trying to revolutionise computing like you> are."
> − Satisfied Customer > "First, thanks for the early board it looks very well designed." > − Satisfied Customer > "Congratulations! You had a very ambitious project and have executed > it very well. I have recommended your board to the local> university."
> − Satisfied Customer 2014 Parallella. All Rights Reserved.* __
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