Zobrazeno 1 - 10
of 30
pro vyhledávání: '"Gregory M. Chrysler"'
Publikováno v:
Proceedings of the IEEE. 94:1476-1486
Increasing microprocessor performance has historically been accompanied by increasing power and increasing on-chip power density, both of which present a cooling challenge. In this paper, the historical evolution of power is traced and the impact of
Autor:
J. Torresola, Abhay A. Watwe, Ravi Prasher, Gregory M. Chrysler, D. Grannes, Chia-Pin Chiu, Ravindranath V. Mahajan
Publikováno v:
IEEE Transactions on Advanced Packaging. 28:659-664
In the microelectronics industry, power has traditionally been the key driver for thermal management. Cooling solutions are typically rated in terms of their power dissipation capacity and efficiency. However, overall power is not the only parameter
Autor:
Gregory M. Chrysler, Gaurang N. Choksi, Vasudeva Atluri, Chia-Pin Chiu, John Tang, Priyavadan R. Patel, Debendra Mallik, Ravi Mahajan, Ram S. Viswanath, Vijay S. Wakharkar
Publikováno v:
MRS Bulletin. 28:21-34
Historically, the primary function of microprocessor packaging has been to facilitate electrical connectivity of the complex and intricate silicon microprocessor chips to the printed circuit board while providing protection to the chips from the exte
Publikováno v:
IEEE Transactions on Components and Packaging Technologies. 25:621-628
Presently, the microelectronics industry needs thermal solutions that are able to dissipate high heat fluxes at low thermal resistance. The majority of original equipment manufacturers (OEMs) within the microelectronics industry would like to achieve
Autor:
Kelly Lofgreen, David A. Koester, Ravi Mahajan, Ihtesham Chowdhury, Randall G. Alley, Rama Venkatasubramanian, Gregory M. Chrysler, Ravi Prasher, Sridhar Narasimhan
Publikováno v:
Nature nanotechnology. 4(4)
There is a significant need for site-specific and on-demand cooling in electronic, optoelectronic and bioanalytical devices, where cooling is currently achieved by the use of bulky and/or over-designed system-level solutions. Thermoelectric devices c
Autor:
Dereje Agonafer, Gregory M. Chrysler, Ravi Mahajan, Abhijit Kaisare, A. Haji-Sheikh, Uthaman Raju
Publikováno v:
2008 11th Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems.
Microprocessors continue to grow in capabilities, complexity and performance. Microprocessors typically integrate functional components such as logic and level two (L2) cache memory in their architecture. This functional integration of logic and memo
Publikováno v:
Thermal and Thermomechanical Proceedings 10th Intersociety Conference on Phenomena in Electronics Systems, 2006. ITHERM 2006..
Solid state refrigeration technologies claim no moving parts and could possibly be one of the promising technologies for electronic cooling in the future. This paper focuses on the use of a thin film thermoelectric cooler (TFTEC) directly above the h
Publikováno v:
Thermal and Thermomechanical Proceedings 10th Intersociety Conference on Phenomena in Electronics Systems, 2006. ITHERM 2006..
The shrinking transistor feature sizes have resulted broadly in two different packaging thermal challenges; cooling the total thermal design power of the microprocessor, and thermal suppression of the hot spots which have progressively higher heat fl
Publikováno v:
Thermal and Thermomechanical Proceedings 10th Intersociety Conference on Phenomena in Electronics Systems, 2006. ITHERM 2006..
Decrease in the transistor features have resulted in increased challenges of cooling the hotspots in addition to cooling the overall die. In addition, future packaging concepts of stacked die exacerbate the need for spot-cooling thermal solution. Thi
Autor:
Gregory M. Chrysler, Hakan Erturk, Je-Young Chang, Ravi Prasher, Ioan Sauciuc, Chia-Pin Chiu, Ravi Mahajan
Publikováno v:
Advances in Electronic Packaging, Parts A, B, and C.
Over the past few years, thermal design for cooling microprocessors has become increasingly challenging mainly because of an increase in both average power density and local power density, commonly referred to as “hot spots”. The current air cool