計算機科学 / Computer Science  

  田中 徹, 滝沢 寛之  

  工  

   

   

This class is given using Google Classroom (class code: m57xxiq)

Computer architecture and IC technology will be lectured to understand modern computer systems better. The lecture includes

・ Logic design of ALU, memory hierarchy composed of SRAM, DRAM, NAND Flash, and HDD, and control units with hard-wired logic and microprogramming.

・Structure of computer systems using processors, memories, and input/output devices as building blocks.

・High-performance computing mechanisms such as pipelining and parallel processing.

・Issues and tradeoffs involved in the design of computer system architecture for the design of instruction sets.

In addition, research topics on state-of-the-art LSI technology will be also presented in the lecture.

  Computer Hardware Fundamentals  

   

  情報基礎科学専攻、システム情報科学専攻、人間社会情報科学専攻、応用情報科学専攻  

  前期前半  

  前期前半 火曜日 1講時 / 前期前半 火曜日 2講時  

Google Classroomのクラスコードは工学研究科HPにて確認すること。

大学院シラバス・時間割・履修登録(https://www.eng.tohoku.ac.jp/edu/syllabus-g.html)

  (IMAC-U)情報科学基礎Ⅰ / (IMAC-U) Fundamentals of Information Science I  

  小林 広明  

  工  

   

   

This class will be managed by Google classroom, whose class code is xnt2pve, and given in-person in Room 213 of Mechanical Engineering building. Sometime, this class will be also delivered in a real-time on-line fashion. Please check the google classroom before attending the class on every Monday and Thursday, at 1:00pm (until 2:30).

１．Class subject(目的)

As the learning goal, students have acquired the knowledge of circuit design and organization of modern computer systems.

２．Object and summary of class(概要)

After the quick review of computer systems development in the history, the course gives the mathematical foundation for computer system design. Based on the mathematical foundation, the design methodology of basic circuits such as combinational circuits and sequential circuits is given. And then, the course describes how a computer system is constructed by using several basic combinational and sequential circuits, and discusses its functionality to carry out arithmetic and logic operations. In addition, the format of a machine language to direct operations to the computer system and its interpretation to generates control signals will be presented.

３．Goal of study(達成目標等)

In this course, students should be able to:

(1) know the concept of today's computers based on the history of computers development,

(2) learn data representation for computers and the mathematical foundation of computer arithmetic, and

(3) understand the concrete structure and functionality of modern computer systems through their basic components of arithmetic unit, memory and control unit as building blocks in terms of hardware and software.

  情報科学基礎Ⅰ / Fundamentals of Information Science I  

  佐藤 雅之  

  工  

   

   

Google Classroomのクラスコードは工学部Webページにて確認すること。

学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)

コンピュータの構造と機能についての基礎知識の修得を目的とする．コンピュータの歴史を踏まえ，現在のコンピュータと今後の発展について講義する．コンピュータの概念を理解し有効利用する能力を養うことをねらう．

The class code for Google Classroom can be found on the Web site of

the School of Engineering:

https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)

The objective of this course is to acquire basic knowledge about the structure and functions of computers. Starting from the history of computers, the mechanisms of how they work will be explained and their future will be discussed. The goal is to help students understand the concept of computers and develop the ability to use computers effectively.

  アーキテクチャ学 / Computer Architecture  

  小林 広明, 佐藤 雅之  

  工  

   

   

The term "computer architecture" means the concept of designing computers and is also its philosophy. This course begins with the basic principles of computers, and then talks about instruction-level parallel processing, vector processing, parallel computing systems, and their control mechanisms. Supercomputing techniques such as vector systems and accelerators are also reviewed.

This class will be given via Google classroom in an on-line fashion ((class code: bae3pof )

  アーキテクチャ学  

   

  情報基礎科学専攻、システム情報科学専攻  

  後期後半  

  後期後半 火曜日 3講時 / 後期後半 火曜日 4講時  

n/a

  ディジタルコンピューティング / Digital Computing  

  堀尾 喜彦  

  工  

   

   

Google Classroomのクラスコードは gpknuae です。

１．目的

 ディジタルコンピューティングシステムの構成要素，レジスタトランスファ論理に基づく計算機の論理設計法の習得により，VLSIプロセッサの構成原理の基礎を理解する．

２．概要

 ディジタルコンピューティングシステムの構成要素である，組合せ回路，フリップフロップ，レジスタ，カウンタ，メモリ，順序回路，演算回路などの構成法について学習する．さらに，これらを構成要素とした，レジスタトランスファ論理に基づく計算機の基礎的設計法を習得する．

３．達成目標等

 簡単な計算機を設計できる実力をつけることが達成目標である．このためには，組合せ回路，レジスタ，順序回路及び演算回路などのモジュールの設計，レジスタトランスファ論理による計算機設計手法などを十分理解すること．

Class-code of the Google Classroom is gpknuae .

1. Objective:

Study building blocks of digital computing system and logic design of digital computer based on register-transfer logic. Through this study, you can understand an elementary design philosophy of VLSI processors.

2. Summary:

Learn basic building blocks of digital computing system such as combinational circuits, flip-flops, registers, counters, memories, sequential circuits, and arithmetic circuits. Also, study a basic design methodology of digital computer based on register-transfer logic, in combining with the above building blocks.

3. Goal:

The goal of this course is to acquire the skills of designing a simple digital computer. In order to reach this goal, deepen understanding design techniques of basic modules such as combinational circuits, registers, sequential circuits and arithmetic circuits, and design methodologies of digital computer based on register-transfer logic.

  ディジタルコンピューティング / Digital Computing  

  本間 尚文  

  工  

   

   

Google Classroomのクラスコードは工学部Webページにて確認すること。

学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)

１．目的

 ディジタルコンピューティングシステムの構成要素，レジスタトランスファ論理に基づく計算機の論理設計法の習得により，VLSIプロセッサの構成原理の基礎を理解する．

２．概要

 ディジタルコンピューティングシステムの構成要素である，組合せ回路，フリップフロップ，レジスタ，カウンタ，メモリ，順序回路，演算回路などの構成法について学習する．さらに，これらを構成要素とした，レジスタトランスファ論理に基づく計算機の基礎的設計法を習得する．

３．達成目標等

 簡単な計算機を設計できる実力をつけることが達成目標である．このためには，組合せ回路，レジスタ，順序回路及び演算回路などのモジュールの設計，レジスタトランスファ論理による計算機設計手法などを十分理解すること．

The class code for Google Classroom can be found on the Web site of

the School of Engineering:

https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)

1. Objective:

Study building blocks of digital computing system and logic design of digital computer based on register-transfer logic. Through this study, you can understand an elementary design philosophy of VLSI processors.

2. Summary:

Learn basic building blocks of digital computing system such as combinational circuits, flip-flops, registers, counters, memories, sequential circuits, and arithmetic circuits. Also, study a basic design methodology of digital computer based on register-transfer logic, in combining with the above building blocks.

3. Goal:

The goal of this course is to acquire the skills of designing a simple digital computer. In order to reach this goal, deepen understanding design techniques of basic modules such as combinational circuits, registers, sequential circuits and arithmetic circuits, and design methodologies of digital computer based on register-transfer logic.

  ディジタルコンピューティング / Digital Computing  

  羽生 貴弘, 夏井 雅典  

  工  

   

   

Google Classroomのクラスコードは工学部Webページにて確認すること。

学部シラバス・時間割(https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html)

１．目的

 ディジタルコンピューティングシステムの構成要素，レジスタトランスファ論理に基づく計算機の論理設計法の習得により，VLSIプロセッサの構成原理の基礎を理解する．

２．概要

 ディジタルコンピューティングシステムの構成要素である，組合せ回路，フリップフロップ，レジスタ，カウンタ，メモリ，順序回路，演算回路などの構成法について学習する．さらに，これらを構成要素とした，レジスタトランスファ論理に基づく計算機の基礎的設計法を習得する．

３．達成目標等

 簡単な計算機を設計できる実力をつけることが達成目標である．このためには，組合せ回路，レジスタ，順序回路及び演算回路などのモジュールの設計，レジスタトランスファ論理による計算機設計手法などを十分理解すること．

The class code for Google Classroom can be found on the Web site of

the School of Engineering:

https://www.eng.tohoku.ac.jp/edu/syllabus-ug.html (JP Only)

1. Objective:

Study building blocks of digital computing system and logic design of digital computer based on register-transfer logic. Through this study, you can understand an elementary design philosophy of VLSI processors.

2. Summary:

Learn basic building blocks of digital computing system such as combinational circuits, flip-flops, registers, counters, memories, sequential circuits, and arithmetic circuits. Also, study a basic design methodology of digital computer based on register-transfer logic, in combining with the above building blocks.

3. Goal:

The goal of this course is to acquire the skills of designing a simple digital computer. In order to reach this goal, deepen understanding design techniques of basic modules such as combinational circuits, registers, sequential circuits and arithmetic circuits, and design methodologies of digital computer based on register-transfer logic.

  医用情報科学演習Ⅰ  

  市地 慶  

  保健学科放射線技術科学専攻  

  5セメスター  

  前期 月曜日 4講時 保健学科第1講義室  

放射線画像診断・治療装置をはじめとして今日の医療機器システムは，システムに組み込まれたディジタルコンピュータシステムを用いた情報処理によって高度な機能を実現しています．

したがって，医療情報の効果的な取り扱いと活用には，ディジタルコンピュータと情報処理技術の理解が重要です．

本科目では，コンピュータによる情報処理の基礎知識として，ディジタル回路およびプログラミングの基礎について演習を通じて身につけます．

In this class, the students learn the fundamentals of digital circuits and computer programming as underlying technologies of information processing on digital computer systems for radiological technology in medicine through exercises. Information processing by using digital computer systems plays an essential role in achieving higher-level functions in almost every modern medical system, such as image reconstruction in diagnostic imaging and treatment planning in radiation therapy. It is thus important to understand information processing in digital computers for properly operating medical systems and effectively utilizing medical information.