Chapter 1: Nick Nicholls, Albert Chu: Difference between revisions

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| Core 2 Allendale
| Core 2 Allendale
| 1.8-2.6 GHz, 167M transistors, 2MB L2 cache
| 1.8-2.6 GHz, 167M transistors, 2MB L2 cache
| 2 CPUs on one die, enhanced security hardware
| 2 CPUs on one die, Trusted Execution Technology
|-
|-
| 2008
| 2008

Revision as of 18:32, 6 February 2012

Transistor Count

According to the text, since 1971 the number of transistors on a chip has increased from 2,300 to 167 million in 2006. By 2011, the transistor count had further increased to 2.6 billion, a 1,130,434x increase from 1971. The clock frequency has also continued to rise, if a bit slower since 2006. At the time, it was around 2.4ghz, a 3k multiple of the speed in 1971 of 750khz. Now the high end clock speed of a processor is in the 3.3ghz range.

Increase

Evolution of Intel Processors

Table 1.1: Evolution of Intel Processors
From Procs Specifications New Features
2000 Pentium IV 1.4-3GHz, 55M transistors hyper-pipelining, SMT
2006 Xeon 64-bit, 2GHz, 167M transistors, 4MB L2 cache on chip Dual core, virtualization support
2007 Core 2 Allendale 1.8-2.6 GHz, 167M transistors, 2MB L2 cache 2 CPUs on one die, Trusted Execution Technology
2008
2009
2010 Core i3 2.93-3.33 GHz, 64 KB L1 cache, 512 KB L2 cache, 4MB L3 cache First 32 nm processors
2011 Sandy Bridge E 3.2-3.3 GHz, 32 KB L1 cache per core, 256 KB L2 cache, 20 MB L3 cache, 2,270M transistors Up to 8 cores

Cores

Sources

  1. en.wikipedia.org/wiki/Transistor_count
  2. http://ark.intel.com/products/52220/Intel-Core-i3-2310M-Processor-%283M-Cache-2_10-GHz%29
  3. http://www.tomshardware.com/news/intel-ivy-bridge-22nm-cpu-3d-transistor,14093.html
  4. http://www.anandtech.com/show/5091/intel-core-i7-3960x-sandy-bridge-e-review-keeping-the-high-end-alive