OASIS-8C System Design Manual
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開始行:
[[OASIS-8C System]]
*Background [#hbe48684]
TBU
*Project Goal [#td1b4108]
TBU
*Hardware Specification [#n7cd4294]
** Processor Implementation [#z500141b]
&ref(soc.png,,40%);
The goal of this project is
- development of small bus system
- design of MIPS I instruction set MPU
Materials
- SN/X SoC: Understanding a small bus system
- MIPS I instruction set:
- An implementation of MIPS processor (COD book).
Homework
(Japanese)
-Document for MIPS instruction set
-http://www.cqpub.co.jp/interface/TechI/Vol39/app/mips_asm.pdf
-NSL Tutorial http://www.ip-arch.jp/doc_NSL_1/kiso1.html
-Small MIPS processor (from COD book, written in NSL )
- LiveCygwin
-- Download and unpack on your Windows computer.
-- See SoC directory I made for education. This is standerd material for ASL members.
** Network Interface Implemenation [#i355dc97]
CENTER:[[&ref(tile-diagram.png,,40%);>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS-8C%20System]]
In this task, a Network-Interface (NI) based on Okada's NI will be implemented. Above figure presents the system level architecture. The NI is connected with the network through its router. The NI also connects to the local bus-based system.
~List of reference:
- [[Okada's report>http://webfs-int.u-aizu.ac.jp/~benab/publications/treport/RyuyaOkada-TR2011.pdf]]
- [[Okada's mater slide>http://webfs-int.u-aizu.ac.jp/~benab/publications/theses/Okada-BS-11/s1160048_GT2011-slides.pdf]]
- [[Poster>http://webfs-int.u-aizu.ac.jp/~benab/publications/theses/Okada-BS-11/s1160048_GT2011.pdf]].
Homework
-Answer under questions and make PDF file (日本語で大丈夫です)
--question(準備中)
//[[question>http://aslweb.u-aizu.ac.jp/aslint/index.php?plugin=attach&pcmd=open&file=network-questions.txt&refer=OASIS-8C%20System%20Design%20Manual]].
--リファレンスを読んで上記の質問に答えてください、リファレンス自体は英語の論文で非常に難しいと思うので、わからないことがあれば質問してください。
** Network Implementation [#a455cf7c]
In this task, a Network-on-Chip will be established based on OASIS NoC router by Akram [[Ref.1>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS-8C%20System%20Design%20Manual#x829e368]].
List of reference:
- [[Akram's master slide>http://web-ext.u-aizu.ac.jp/~benab/publications/theses/Akram-MS-11//m51411532011_MS_thesis_slides.pdf]].
- [[Akram's mater thesis>http://web-ext.u-aizu.ac.jp/~benab/publications/theses/Akram-MS-11/m5141153_2011_MS_thesis.pdf]].
Homework
-Answer under questions and make PDF file (日本語で大丈夫です)
--question(準備中)
//[[question>http://aslweb.u-aizu.ac.jp/aslint/index.php?plugin=attach&pcmd=open&file=network-questions.txt&refer=OASIS-8C%20System%20Design%20Manual]].
--リファレンスを読んで上記の質問に答えてください、リファレンス自体は英語の論文で非常に難しいと思うので、わからないことがあれば質問してください。
* Application Implementation [#abacf8c8]
The goal of this project is imprementation of SIFT algorithm for animal recognition
-
-Programming Computer Vision with Python
&ref(CV_book.jpg,,20%);
--http://programmingcomputervision.com/
--Chapter 1: Basic Image Handling and Processing
&ref(edge.png,,40%);
--Chapter 2: Local Image Descriptors
&ref(SIFT.png,,40%);
--Chapter 8: Classifying Image Content
&ref(knn.png,,40%);
-Reference(Books from RPR)
&ref(saitekika.jpg,,20%);
&ref(YokuWakaPtnRec.jpg,,20%);
--Understanding Optimization Mathmatics (これならわかる最適化数学)
---http://aslweb.u-aizu.ac.jp/aslint/index.php?2015%20%BA%C7%C5%AC%B2%BD%BF%F4%B3%D8
---http://www.kyoritsu-pub.co.jp/bookdetail/9784320017863
--A clear guide for pattern recognition (よくわかるパターン認識)
---http://aslweb.u-aizu.ac.jp/aslint/index.php?Pattern%20recognition2015%20%A5%D1%A5%BF%A1%BC%A5%F3%C7%A7%BC%B12015
---http://shop.ohmsha.co.jp/shop/shopdetail.html?brandcode=000000002356&search=4-274-13149-1&sort=
*Computation Node Implementation [#gf163fc9]
-An introducaion of Arduino (Fab-kura)
--https://sites.google.com/a/gclue.jp/fab-zang-docs/workspace-arduino
-Design of Arduino compatible board (Fab-kura)
--https://sites.google.com/a/gclue.jp/fab-zang-docs/dian-zi-hui-lu
https://makershub.jp/make/605
-Eagle (CAD for PCB design)
--http://www.cadsoftusa.com/eagle-pcb-design-software/about-eagle/
-SODALITE: Prototyping board design for MAX10 FPGA (プロトタイピング基板)
--https://makershub.jp/make/605
*References [#x829e368]
- [Ref.1]: OASIS Network-on-Chip, Akram Ben Ahmed, [[Internal-link>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS]], [[Source-code>http://aslweb.u-aizu.ac.jp/aslint/index.php?3D-ONoC-Verilog]].
- [Ref.2]: Network Inteface, R. Okada, [[Internal-link>http://webfs-int.u-aizu.ac.jp/~benab/publications/treport/RyuyaOkada-TR2011.pdf]].
- [Ref.3]: FPGA manual (TBU).
- [Ref.4]: MIPS_MultiCycle.zip : file://///zxw001/PUBLIC/OASIS-8C/MIPS_MultiCycle.zip
終了行:
[[OASIS-8C System]]
*Background [#hbe48684]
TBU
*Project Goal [#td1b4108]
TBU
*Hardware Specification [#n7cd4294]
** Processor Implementation [#z500141b]
&ref(soc.png,,40%);
The goal of this project is
- development of small bus system
- design of MIPS I instruction set MPU
Materials
- SN/X SoC: Understanding a small bus system
- MIPS I instruction set:
- An implementation of MIPS processor (COD book).
Homework
(Japanese)
-Document for MIPS instruction set
-http://www.cqpub.co.jp/interface/TechI/Vol39/app/mips_asm.pdf
-NSL Tutorial http://www.ip-arch.jp/doc_NSL_1/kiso1.html
-Small MIPS processor (from COD book, written in NSL )
- LiveCygwin
-- Download and unpack on your Windows computer.
-- See SoC directory I made for education. This is standerd material for ASL members.
** Network Interface Implemenation [#i355dc97]
CENTER:[[&ref(tile-diagram.png,,40%);>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS-8C%20System]]
In this task, a Network-Interface (NI) based on Okada's NI will be implemented. Above figure presents the system level architecture. The NI is connected with the network through its router. The NI also connects to the local bus-based system.
~List of reference:
- [[Okada's report>http://webfs-int.u-aizu.ac.jp/~benab/publications/treport/RyuyaOkada-TR2011.pdf]]
- [[Okada's mater slide>http://webfs-int.u-aizu.ac.jp/~benab/publications/theses/Okada-BS-11/s1160048_GT2011-slides.pdf]]
- [[Poster>http://webfs-int.u-aizu.ac.jp/~benab/publications/theses/Okada-BS-11/s1160048_GT2011.pdf]].
Homework
-Answer under questions and make PDF file (日本語で大丈夫です)
--question(準備中)
//[[question>http://aslweb.u-aizu.ac.jp/aslint/index.php?plugin=attach&pcmd=open&file=network-questions.txt&refer=OASIS-8C%20System%20Design%20Manual]].
--リファレンスを読んで上記の質問に答えてください、リファレンス自体は英語の論文で非常に難しいと思うので、わからないことがあれば質問してください。
** Network Implementation [#a455cf7c]
In this task, a Network-on-Chip will be established based on OASIS NoC router by Akram [[Ref.1>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS-8C%20System%20Design%20Manual#x829e368]].
List of reference:
- [[Akram's master slide>http://web-ext.u-aizu.ac.jp/~benab/publications/theses/Akram-MS-11//m51411532011_MS_thesis_slides.pdf]].
- [[Akram's mater thesis>http://web-ext.u-aizu.ac.jp/~benab/publications/theses/Akram-MS-11/m5141153_2011_MS_thesis.pdf]].
Homework
-Answer under questions and make PDF file (日本語で大丈夫です)
--question(準備中)
//[[question>http://aslweb.u-aizu.ac.jp/aslint/index.php?plugin=attach&pcmd=open&file=network-questions.txt&refer=OASIS-8C%20System%20Design%20Manual]].
--リファレンスを読んで上記の質問に答えてください、リファレンス自体は英語の論文で非常に難しいと思うので、わからないことがあれば質問してください。
* Application Implementation [#abacf8c8]
The goal of this project is imprementation of SIFT algorithm for animal recognition
-
-Programming Computer Vision with Python
&ref(CV_book.jpg,,20%);
--http://programmingcomputervision.com/
--Chapter 1: Basic Image Handling and Processing
&ref(edge.png,,40%);
--Chapter 2: Local Image Descriptors
&ref(SIFT.png,,40%);
--Chapter 8: Classifying Image Content
&ref(knn.png,,40%);
-Reference(Books from RPR)
&ref(saitekika.jpg,,20%);
&ref(YokuWakaPtnRec.jpg,,20%);
--Understanding Optimization Mathmatics (これならわかる最適化数学)
---http://aslweb.u-aizu.ac.jp/aslint/index.php?2015%20%BA%C7%C5%AC%B2%BD%BF%F4%B3%D8
---http://www.kyoritsu-pub.co.jp/bookdetail/9784320017863
--A clear guide for pattern recognition (よくわかるパターン認識)
---http://aslweb.u-aizu.ac.jp/aslint/index.php?Pattern%20recognition2015%20%A5%D1%A5%BF%A1%BC%A5%F3%C7%A7%BC%B12015
---http://shop.ohmsha.co.jp/shop/shopdetail.html?brandcode=000000002356&search=4-274-13149-1&sort=
*Computation Node Implementation [#gf163fc9]
-An introducaion of Arduino (Fab-kura)
--https://sites.google.com/a/gclue.jp/fab-zang-docs/workspace-arduino
-Design of Arduino compatible board (Fab-kura)
--https://sites.google.com/a/gclue.jp/fab-zang-docs/dian-zi-hui-lu
https://makershub.jp/make/605
-Eagle (CAD for PCB design)
--http://www.cadsoftusa.com/eagle-pcb-design-software/about-eagle/
-SODALITE: Prototyping board design for MAX10 FPGA (プロトタイピング基板)
--https://makershub.jp/make/605
*References [#x829e368]
- [Ref.1]: OASIS Network-on-Chip, Akram Ben Ahmed, [[Internal-link>http://aslweb.u-aizu.ac.jp/aslint/index.php?OASIS]], [[Source-code>http://aslweb.u-aizu.ac.jp/aslint/index.php?3D-ONoC-Verilog]].
- [Ref.2]: Network Inteface, R. Okada, [[Internal-link>http://webfs-int.u-aizu.ac.jp/~benab/publications/treport/RyuyaOkada-TR2011.pdf]].
- [Ref.3]: FPGA manual (TBU).
- [Ref.4]: MIPS_MultiCycle.zip : file://///zxw001/PUBLIC/OASIS-8C/MIPS_MultiCycle.zip
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