The Experts below are selected from a list of 167706 Experts worldwide ranked by ideXlab platform
Yong Chen - One of the best experts on this subject based on the ideXlab platform.
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opensoc system architect an open toolkit for building soft cores on fpgas
Field-Programmable Logic and Applications, 2017Co-Authors: Farzad Fatollahifard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
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FPL - OpenSoC system architect: An open toolkit for building soft-cores on FPGAs
2017 27th International Conference on Field Programmable Logic and Applications (FPL), 2017Co-Authors: Farzad Fatollahi-fard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
Farzad Fatollahi-fard - One of the best experts on this subject based on the ideXlab platform.
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FPL - OpenSoC system architect: An open toolkit for building soft-cores on FPGAs
2017 27th International Conference on Field Programmable Logic and Applications (FPL), 2017Co-Authors: Farzad Fatollahi-fard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
John Shalf - One of the best experts on this subject based on the ideXlab platform.
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opensoc system architect an open toolkit for building soft cores on fpgas
Field-Programmable Logic and Applications, 2017Co-Authors: Farzad Fatollahifard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
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FPL - OpenSoC system architect: An open toolkit for building soft-cores on FPGAs
2017 27th International Conference on Field Programmable Logic and Applications (FPL), 2017Co-Authors: Farzad Fatollahi-fard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
Xi Wang - One of the best experts on this subject based on the ideXlab platform.
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opensoc system architect an open toolkit for building soft cores on fpgas
Field-Programmable Logic and Applications, 2017Co-Authors: Farzad Fatollahifard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
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FPL - OpenSoC system architect: An open toolkit for building soft-cores on FPGAs
2017 27th International Conference on Field Programmable Logic and Applications (FPL), 2017Co-Authors: Farzad Fatollahi-fard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
David Donofrio - One of the best experts on this subject based on the ideXlab platform.
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opensoc system architect an open toolkit for building soft cores on fpgas
Field-Programmable Logic and Applications, 2017Co-Authors: Farzad Fatollahifard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
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FPL - OpenSoC system architect: An open toolkit for building soft-cores on FPGAs
2017 27th International Conference on Field Programmable Logic and Applications (FPL), 2017Co-Authors: Farzad Fatollahi-fard, David Donofrio, John Leidel, John Shalf, Xi Wang, Yong ChenAbstract:Given the recent difficulty in continuing the classic CMOS manufacturing density and power scaling curves, also known as Moore's Law and Dennard Scaling, respectively, we find that modern complex system architectures are increasingly relying upon accelerators in order to optimize the placement of specific computational workloads. In addition, large-scale computing infrastructures utilized in HPC, data intensive computing, and cloud computing must rely almost exclusively upon commodity device architectures provided by third-party manufacturers. The end result being a final system architecture that lacks specificity for the target software workload. At the same time, there is a trend in the FPGA space of much larger FPGAs with a lot more resources and hardened IP blocks, making this type of architecture design space exploration much easier. The OpenSoC System Architect infrastructure combines several open source design tools and methodologies into a central infrastructure for designing, developing, and verifying the necessary hardware and software modules required to Implement Application-specific processors for use in FPGAs. The end result is an infrastructure that permits rapid development and deployment of Application-specific accelerators and softcores, including a fully functional software development tool chain.
