The Development of Computer system Architecture: Previous, Present, and Future simply by Carol Ho

" Every single fact that can be learned becomes a key to different facts. ” – Edward L. Youmans

To create a better future, we should first understand our previous, what it provides, and exactly where it could have us. In the field of computer buildings, this better future means advancements in (but not really limited to) performance and cost. As time passes, the efficiency and expense has been expanded to create another benchmark based upon current technology. Let's retain raising the line! It's human nature to want even more. This hunger is provided by a continuous demand for quicker and more affordable devices. The demand creates a dependence on businesses who have in turn finance our analysis and allow us to keep growing technologically. Right now, let's jump in my DeLorean and travel back to 81! Image control demands supported ideas in parallelism (MIMD/SIMD) and reconfigurable architectures (PASM) [15]. Now, most of us catch up to Marty McFly in 1985! Architects dealing with signal processing applications realize that real-time calculations are indeed a need. The increasing algorithm complexness drove the need for more overall performance. More research is put into new architectures [1]. Since more time progressed, so would electrical improvements. The architectural improvements would not advance when to make use of the modern technology [12, 16]. Breaking the logjam issue has been a problem. Working around physical flag bandwidth limits brought a reason to creating even more integration on a chip [4]. The multiprocessor over a chip thought contributed to higher performance [12]. Mobile devices emerged and thus did the need for stuck platforms forced new architectures to better use them [16]. Processor chip sizes began to shrink, leading more to embedded applications [14]. Presently, the need for smaller devices continues to grow. The desire for stuck use leads to more analysis for smaller microprocessors. Naturally , cheap is often good, hence the number of...

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[10] Kozyrakis, Christoforos E., and David A. Patterson. " A New Course for Laptop Architecture Research. " Laptop 31 (1998): 24-32. [11] Olukotun, Kunle, and Pilum Hammond. " The Future of Microprocessors. " For a 3 (2005): 26-34. [12] Olukotun, Kunle, Basem A. Nayfeh, Puncture Hammond, Tobey maguire Wilson, and Kunyung Chang. " The situation for a Single-Chip Multiprocessor. " ACM SIGPLAN Notices 31 (1996): 2-11. [13] Ronen, Ronny, Avi Mendelson, Konrad Lai, Shih-Lien Lu, Sally Pollack, and John G. Shen. " Coming Challenges in Microarchitecture and Structure. " Proceedings of the IEEE 89 (2001): 325-40. [14] Schlett, Manfred. " Trends in Inlayed - Microprocessor Design. " IEEE Pc 31 (1998): 14-20. [15] Siegel, Howard J., Leah J. Siegel, Frederick C. Kemmerer, Philip T. Mueller, Jr., Harold E. Smalley, Jr., and Diane Johnson. " PASM: A Partitionable SIMD/MIMD Program for Picture Processing and Pattern Acknowledgement. " IEEE Transactions on Computers C-30 (1981): 934-47. [16] Jones, Richard At the. " A Historical Summary of Computer Architecture. " IEEE Annals from the History of Calculating 10 (1989): 277-303. [17] Ungar, David, Ricki Blau, Peter Foley, Dain Trials, and David Patterson. " Architecture of SOAR: Smalltalk on a RISC. " ACM SIGARCH Laptop Architecture Information 12 (1984): 188-97. [18] Yu, Albert. " The ongoing future of Microprocessors. " IEEE Mini 16 (1996): 46-53.


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