A Cross Layer Design Exploration of Charge- Recycled Power-Delivery in Many-Layer 3D-IC Runjie Zhang Kaushik Mazumdar Brett H. Meyer Ke Wang Kevin Skadron Mircea Stan DAC 15’
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A Cross Layer Design Exploration of Charge-Recycled Power-Delivery in Many-Layer
3D-ICRunjie Zhang
Kaushik Mazumdar Brett H. Meyer
Ke Wang Kevin Skadron Mircea Stan
DAC 15’
Outline
• Introduction
• Background
• PDN Modeling for 3D-IC
• Results and future work
Introduction
• the number of physical layers in a 3DIC stack is expected to increase in the future, the already serious problems of delivering power to and removing heat from the 3D stack will be even worse.
• Previous research proposals suggest using the voltage stacking to build the power delivery network for 3D-IC
Voltage Stacking
• 3D IC power delivery walls arise due to unsustainable increase in current
• Solution for delivering increased power without increase in current is to increase voltage
Voltage Stacking
• Off-Chip Power Loss : times
• IR Drop : k times
SC converter
Switch Capacitor Model
Switch Capacitor Model
• has 2 asymptotic limits : Slow Switching Limit () and Fast Switching Limit ()
• => Ideal Switches, Current Impulsive in nature, Impedance inversely proportional to Switching Frequency
• => Switches and capacitance resistance dominate, capacitance act as fixed voltage source, Impedance independent of Switching frequency
Close loop and Open loop
PDN Modeling for 3D-IC
Simulation Setup
• Many core Processor Modeling• Use 40nm, dual-core ARM Cortex A9 and replicate it 8 times to build a single-
layer, 16core processor
• It can handle the temperature below 100 Celsius with 8 layer of its example 16 core processor
Simulation Setup
Results
Results
Results
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