Title :
Power Delivery for 3-D Chip Stacks: Physical Modeling and Design Implication
Author :
Huang, Gang ; Bakir, Muhannad S. ; Naeemi, Azad ; Meindl, James D.
Author_Institution :
Intel Corp., Austin, TX, USA
fDate :
5/1/2012 12:00:00 AM
Abstract :
3-D integration creates vast opportunities to improve performance and the level of integration in nanoelectronic systems. However, 3-D integration presents many challenges for power delivery network design due to larger supply currents and longer power delivery paths compared to 2-D systems. In this paper, an analytical physical model is derived to incorporate the impact of 3-D integration on power supply noise. The model has less than 4% error compared to SPICE simulations. Based on the model, design guidelines and opportunities for reducing power supply noise, such as inserting “decap” die and through-vias, are discussed in this paper.
Keywords :
chip scale packaging; integrated circuit noise; nanoelectronics; 3D chip stack; 3D integration; SPICE simulation; analytical physical model; decap die; nanoelectronic system; power delivery network design; power delivery path; power supply noise; through-vias; Integrated circuit modeling; Mathematical model; Noise; Power supplies; SPICE; Solid modeling; Switches; 3-D integration; chip/package codesign; compact physical model; power supply noise;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2012.2185047
