NASH FPGA Prototyping
をテンプレートにして作成
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開始行:
CENTER:SIZE(50){COLOR(gold){NASH}:COLOR(gold){N}euro-inspired COLOR(gold){A}rchitectureCOLOR(gold){S} in COLOR(gold){H}ardware}
CENTER:[[==> Main page>https://adaptive.u-aizu.ac.jp/aslint/index.php?NASH]]
-Group Meeting Schedule
--May 27, 2019
--June 10, 2019, 4 PM
--June 24, 2019, 4PM
--July 11, 2019, 4PM
-- August 5, 2019, 4PM
*Members [#f7385e82]
-Vu
-Mark
-Dang (Project Manager)
-Ben
*Tasks [#tasks]
| BGCOLOR(#87CEFA): | BGCOLOR(#87CEFA): | BGCOLOR(#87CEFA): |c
| Task | Assignee | Due date | Status |
| Learning using STDP | Khanh | %%11 Jul%% 5 Aug | On-going |
| Re-design SNPC | Mark | %%13%% 11 Jul | Partly done |
| Re-design SNPC | The | %%13%% 11 Jul | Partly done |
| SNPC+NoC design | The & Mark | 5 Aug | on-going |
*NASH Hardware Specificaiton [#d49fd6ab]
-Vu-kun, pelase add description here
*NASH Hardward Design [#ma985899]
Before you intent to edit Verilog source code, please carefully check this guideline:
[[Verilog Guideline]]
**SNPC tile architectre and design with onchip learning [#q67e31ed]
***SNPC architecture with SRAM [#se3edaf6]
--[[verilog code >https://drive.google.com/file/d/1hdBMSBsklsLRBhnFwRjKxWIMEjHTfOcQ/view?usp=sharing]], [[slides+waveform >https://drive.google.com/file/d/1m7fBzFFrDuW1cu7MfO80Ay-7xoPsmjWR/view?usp=sharing]]
--SNPC Hardware Design and simulation
---Leader: Mark (please upalod your design report here)
***Converting MNIST to Spike [#a6f754aa]
--[[Mathab code>https://drive.google.com/file/d/1rfdcyYoxOTYHHsqwMjujsvlhvu43O7gH/view?usp=sharing]], [[slides>https://drive.google.com/file/d/1OoD0SY3Dm33Jr7nUijsjQNwmhvACUvrY/view?usp=sharing]]
***SNPC architecture with Xbar [#o27f11b8]
-to be completed
***SNPC Architecture with Learning (STDP) and SRAM/Xbar [#ca6f0869]
-Current state
*Refrence [#x64f1a51]
***Encoding Analog Input Data into Spike Trains [#hd682b83]
Using either a rate based method, some form of temporal coding, or population coding [[reference>https://arxiv.org/pdf/1804.08150.pdf]]
-[[Python code>https://github.com/Shikhargupta/Spiking-Neural-Network/tree/master/encoding]]
-Verilog code
*OASIS Reference [#h1e9ea10]
-OASIS 2D Router (&ref(OASIS-2D.zip,,sourcecode);)
-OASIS 3D Router (&ref(OASIS-3D.zip,,sourcecode);)
-NI
-MC Router (&ref(MCN.zip,,sourcecode);)
-LIF Core (&ref(B4.Kanta Suzuki.2017.LIF Core Verilog.zip,,sourcecode);)
-[[OASIS Routers Hardware Design Tutorials>http://adaptive.u-aizu.ac.jp/?page_id=592]]
終了行:
CENTER:SIZE(50){COLOR(gold){NASH}:COLOR(gold){N}euro-inspired COLOR(gold){A}rchitectureCOLOR(gold){S} in COLOR(gold){H}ardware}
CENTER:[[==> Main page>https://adaptive.u-aizu.ac.jp/aslint/index.php?NASH]]
-Group Meeting Schedule
--May 27, 2019
--June 10, 2019, 4 PM
--June 24, 2019, 4PM
--July 11, 2019, 4PM
-- August 5, 2019, 4PM
*Members [#f7385e82]
-Vu
-Mark
-Dang (Project Manager)
-Ben
*Tasks [#tasks]
| BGCOLOR(#87CEFA): | BGCOLOR(#87CEFA): | BGCOLOR(#87CEFA): |c
| Task | Assignee | Due date | Status |
| Learning using STDP | Khanh | %%11 Jul%% 5 Aug | On-going |
| Re-design SNPC | Mark | %%13%% 11 Jul | Partly done |
| Re-design SNPC | The | %%13%% 11 Jul | Partly done |
| SNPC+NoC design | The & Mark | 5 Aug | on-going |
*NASH Hardware Specificaiton [#d49fd6ab]
-Vu-kun, pelase add description here
*NASH Hardward Design [#ma985899]
Before you intent to edit Verilog source code, please carefully check this guideline:
[[Verilog Guideline]]
**SNPC tile architectre and design with onchip learning [#q67e31ed]
***SNPC architecture with SRAM [#se3edaf6]
--[[verilog code >https://drive.google.com/file/d/1hdBMSBsklsLRBhnFwRjKxWIMEjHTfOcQ/view?usp=sharing]], [[slides+waveform >https://drive.google.com/file/d/1m7fBzFFrDuW1cu7MfO80Ay-7xoPsmjWR/view?usp=sharing]]
--SNPC Hardware Design and simulation
---Leader: Mark (please upalod your design report here)
***Converting MNIST to Spike [#a6f754aa]
--[[Mathab code>https://drive.google.com/file/d/1rfdcyYoxOTYHHsqwMjujsvlhvu43O7gH/view?usp=sharing]], [[slides>https://drive.google.com/file/d/1OoD0SY3Dm33Jr7nUijsjQNwmhvACUvrY/view?usp=sharing]]
***SNPC architecture with Xbar [#o27f11b8]
-to be completed
***SNPC Architecture with Learning (STDP) and SRAM/Xbar [#ca6f0869]
-Current state
*Refrence [#x64f1a51]
***Encoding Analog Input Data into Spike Trains [#hd682b83]
Using either a rate based method, some form of temporal coding, or population coding [[reference>https://arxiv.org/pdf/1804.08150.pdf]]
-[[Python code>https://github.com/Shikhargupta/Spiking-Neural-Network/tree/master/encoding]]
-Verilog code
*OASIS Reference [#h1e9ea10]
-OASIS 2D Router (&ref(OASIS-2D.zip,,sourcecode);)
-OASIS 3D Router (&ref(OASIS-3D.zip,,sourcecode);)
-NI
-MC Router (&ref(MCN.zip,,sourcecode);)
-LIF Core (&ref(B4.Kanta Suzuki.2017.LIF Core Verilog.zip,,sourcecode);)
-[[OASIS Routers Hardware Design Tutorials>http://adaptive.u-aizu.ac.jp/?page_id=592]]
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