Personal computer cores have been escalating in speed, and increasingly quickly. Manufacturers had been in a race to have the chip with the fastest speed, measured in GHz. One particular surprise is that regardless of these increases in clock speed, the actual speed of applications didn’t boost proportionately.
Xeon with 512 K L2 Cache supports dual processor workstations and server designs, is compatible with Intel E7210, Intel E7500, Intel E7501 and Intel 860 Chipsets, has Hyper-Threading Technologies which is hardware support for multi-threaded server applications and also ships with a PWT (energy wind tunnel). Its available speeds are 1.80, two, 2.20, two.40, 2.60, 2.80, 3, three.06 and three.20 GHz just as the Xeon Processor for 1U Rack Servers and the Xeon with 800 MHz do.
Beginning these days, servers primarily based on the Intel Xeon 7400 processor series are anticipated to be announced by far more than 50 system manufacturers about the planet, like four-socket rack servers from Dell, Fujitsu, Fujitsu-Siemens, Hitachi, HP, IBM, NEC, Sun, Supermicro and Unisys 4-socket blade servers from Egenera, HP, Sun and NEC and servers that scale up to 16-sockets from IBM, NEC and Unisys.
Processor AMD memang lebih cepat panas. Tapi kita juga harus tahu, bahwa panasnya itu juga dihasilkan oleh processor itu sendiri. Jadi kalau soal panas, itu masalah yang bisa disiasati. Dan kalau maslah lelet, sebenarnya terjadi tidak hanya pada AMD saja, pada processor intel pun juga demikian. Hal itu terjadi biasanya, semakin banyak aplikasi yang kita download maka akan semakin berkurang kecepatannya.
In 2014, AMD presented Rapidly Forward”, its vision for Exascale computing in line with DoE (U.S. Department of Power) recommendations (and hundreds of millions of dollars in analysis and manufacturing grants). The organization ultimately lost the $425 million contract for Lawrence Livermore National Laboratories and Oak Ridge National Laboratories (ORNL) to IBM and NVIDIA. Nonetheless, AMD was successful in Rapidly Forward2”, a U.S. DoE and National Nuclear Safety Administration (NNSA) grant plan exactly where AMD, Cray, IBM, Intel and NVIDIA all received funding for development of Exascale-class processing architectures.