Title :
A `virtual waferscale´ multichip module system
Author_Institution :
J.J. Thomson Phys. Lab., Reading Univ., UK
Abstract :
A new concept in multichip modules is presented that represents a potential `next step´ in packaging for solid state electronic systems. A unique heat sink material, in the form of a compacted particulate paste provides a firm three dimensional support to die without adhesion to the die. The material also provides a direct thermal shunt between a die and its casing. The resulting low thermal resistance Θjc allows an array of die to be placed into a single module where the die spacing can be such that direct die to die interconnects are possible. A dense array of die with direct die to die interconnects will behave electronically as if it were a single die. A `virtual waferscale´ 128 Mb SRAM memory block, fabricated as a 32 die array, is considered
Keywords :
SRAM chips; heat sinks; integrated circuit interconnections; multichip modules; thermal resistance; 128 Mbit; compacted particulate paste; direct die to die interconnects; direct thermal shunt; heat sink material; low thermal resistance; multichip module system; packaging; solid state electronic systems; virtual waferscale MCM system; Electronic packaging thermal management; Heat sinks; Laboratories; Lattices; Multichip modules; Thermal conductivity; Thermal management; Thermal resistance; Thermal stresses; Wafer bonding;
Conference_Titel :
Electronics Manufacturing Technology Symposium, 1996., Nineteenth IEEE/CPMT
Conference_Location :
Austin, TX
Print_ISBN :
0-7803-3642-9
DOI :
10.1109/IEMT.1996.559712
