![]() ![]() For students not continuing in computer architecture, it gives an overview of the techniques used in today's microprocessors. If you are looking for university-level courses offered by the College, you will want to review courses in the subject areas where the level of study has been. ![]() ![]() For students who continue in computer architecture, it lays the foundation of the latest techniques implemented in current and future high-performance computing platforms. Topics include reduced instruction set computer architectures (RISC), using the MIPS central processor as an example, interface between assembly and high-level programming constructs and hardware, instruction and memory cache systems, performance evaluation, benchmarks, and use of the SPIM/WinDLX/Verilog simulators for the MIPS architecture. You will work in groups of 4 or 5 to get an understanding of the design process in the context of a complex hardware system and practical experience with. This course qualitatively and quantitatively examines computer design trade-offs and teaches the fundamentals of computer architecture and organization, including CPU, memory, registers, arithmetic unit, control unit, and input/output components. Course objectives: This course will give you an in-depth understanding of the inner-workings of modern digital computer systems and tradeoffs present at the hardware-software interface. Computer architecture is the science and art of selecting and interconnecting hardware components to create a computer that meets functional, performance and cost goals. ![]()
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