鬮俶ゥ溯ス諠蝣ア蜃ヲ逅繧キ繧ケ繝繝繧貞ョ溽樟縺吶k荳翫〒シ後&縺セ縺悶∪縺ェ諠蝣ア蜃ヲ逅讖溯ス繧帝ォ倬溘°縺、蜉ケ邇繧医¥螳溯。後☆繧九%縺ィ縺ョ縺ァ縺阪kVLSI繧キ繧ケ繝繝縺御ク榊庄谺縺ァ縺ゅk縲よ悽隰帷セゥ縺ァ縺ッVLSI繧キ繧ケ繝繝縺ョ譬ク縺ィ縺ェ繧九槭う繧ッ繝ュ繝励Ο繧サ繝繧オ縺ョ繧「繝シ繧ュ繝繧ッ繝√Εシ悟渕譛ャ讒区先橿陦薙→蜈ア縺ォシ悟推遞ョ諠蝣ア蜃ヲ逅繧「繝ォ繧エ繝ェ繧コ繝繧歎LSI荳翫↓螳溽樟縺吶k縺溘a縺ョ險ュ險域婿豕穂クヲ縺ウ縺ォ縺薙l繧峨r蜉ケ邇濶ッ縺乗エサ逕ィ縺吶k縺溘a縺ョOSシ後さ繝ウ繝代う繝ゥ縺ェ縺ゥ縺ョ繧ス繝輔ヨ繧ヲ繧ァ繧「謚陦薙↓縺、縺縺ヲ蟄ヲ縺カ縲
VLSI systems can execute various information processing functions at high-speed and with efficiency, and then playing a significant role in achieving advanced information processing systems. Microprocessors, kernels of VLSI systems, and software technologies, like OS and compilers, are lectured. Furthermore, design examples at product levels are also introduced.
01.Trends of logic VLSIs and microprocessors
02.Basic microprocessor architectures
03.Realization of VLSI in information processing algorithms
04.Design tools and techniques (Exercise-1)
05.Design tools and techniques (Exercise-2)
06.Basic compiler technology
07.Advanced compiler technology
08.System integration
09.Design example: architecture design
10.Design example: high performance techniques and their implementations (1)
11.Design example: high performance techniques and their implementations (2)
12.Design example: low power techniques and their implementations
D.A. Patterson and J.L. Hennessy, ""Computer Organization and Design,"" Morgan Kaufmann Publishers Inc
It is desirable to study ""Fundamentals on VLSI Systems"" at spring semester.
Attendance at lectures, a midterm exam, and a term-end examination
The knowledge about microprocessors and related technologies is to the foundations of VLSI systems