Journal ArticleDOI
Thermal Pathfinding for 3-D ICs
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TLDR
A pathfinding flow that integrates SystemC transaction-level electrical and dynamic thermal simulations to pass complex physical constraints to system architects in a convenient form is presented.Abstract:
System architects traditionally use high-level models of component blocks to predict trends for various design metrics. However, with continually increasing design complexity and a confusing array of manufacturing choices, system-level design decisions cannot be made without considering physical-level details. This effect is more pronounced for 3-D integrated circuits (ICs) because it provides a plethora of physical-level design choices, such as the number of stacking layers and the type of 3-D bonding method, along with the choices provided by 2-D ICs. Thus, it is necessary for system-level flows to predict the complex interactions among system performance, power, temperature, floorplanning, process technology, computer architecture, and software/workloads. This is often called pathfinding. This paper presents a pathfinding flow that integrates SystemC transaction-level electrical and dynamic thermal simulations. The goal of this flow is to pass complex physical constraints to system architects in a convenient form. The applicability of the proposed flow is shown using an example stacking of two processor cores and L2 cache in two-tier 3-D stack.read more
Citations
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Proceedings ArticleDOI
Physical Design Automation for 3D Chip Stacks: Challenges and Solutions
Johann Knechtel,Jens Lienig +1 more
TL;DR: This work survey major design challenges for 3D chip stacks with particular focus on their implications for physical design, and derive requirements for advances in design automation, such as the need for a unified workflow.
Proceedings ArticleDOI
Ctherm: An Integrated Framework for Thermal-Functional Co-simulation of Systems-on-Chip
TL;DR: Therm as mentioned in this paper is an integrated framework for cycle-accurate thermal and functional evaluation of systems-on-chip (SoC) systems. And it enables accurate characterization of thermal behavior by generating detailed physical models for components based on input specifications, and simulating them within a tightly integrated co-simulation platform with an embedded thermal simulator.
Journal ArticleDOI
KitFox: Multiphysics Libraries for Integrated Power, Thermal, and Reliability Simulations of Multicore Microarchitecture
TL;DR: The design methodology of the library framework that orchestrates various implementations of physical models and standardized interface to cycle-level microarchitecture simulators are described, which is to facilitate research explorations at the intersection of applications, microarch architects, and various physical phenomena, including energy, power, thermal, cooling, and reliability.
Journal ArticleDOI
Analysis, Design, and Prototyping of Temperature Resilient Clock Distribution Networks for 3-D ICs
TL;DR: In this paper, the effect of thermal gradients on the clock distribution network in the 3-D ICs along with the power distribution network is investigated, and power-efficient compensation methods for minimizing temperature-induced skew using the thermoelectrical analysis are presented.
Proceedings ArticleDOI
Thermal simulation of heterogeneous GaN/ InP/silicon 3DIC stacks
T. Robert Harris,Eric J. Wyers,Lee Wang,Samuel Graham,Georges Pavlidis,Paul D. Franzon,W. Rhett Davis +6 more
TL;DR: Preliminary results are presented which examine the thermal performance of the integration of materials such as GaN, InP, SiGe, and Si and two methods for building up the model of a test chip are compared.
References
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Journal ArticleDOI
3-D ICs: a novel chip design for improving deep-submicrometer interconnect performance and systems-on-chip integration
TL;DR: This paper analyzes the limitations of the existing interconnect technologies and design methodologies and presents a novel three-dimensional chip design strategy that exploits the vertical dimension to alleviate the interconnect related problems and to facilitate heterogeneous integration of technologies to realize a system-on-a-chip (SoC) design.
Journal ArticleDOI
Demystifying 3D ICs: the pros and cons of going vertical
W.R. Davis,John W. Wilson,S. Mick,Jian Xu,Hao Hua,C. Mineo,A.M. Sule,Michael B. Steer,Paul D. Franzon +8 more
TL;DR: In this paper, the authors present a high-level discussion of the pros and cons of 3D technologies, with an analysis relating the number of transistors on a chip to the vertical interconnect density using estimates based on Rent's rule.
Proceedings ArticleDOI
A thermal-driven floorplanning algorithm for 3D ICs
Jason Cong,Jie Wei,Yan Zhang +2 more
TL;DR: A thermal-driven 3D floorplanning algorithm with CBA representation that can reduce the wirelength by 29% and reduce the maximum on-chip temperature by 56% is proposed.
Journal ArticleDOI
Roadmap for 22nm and beyond (Invited Paper)
TL;DR: In this paper, logic CMOS technology roadmap for '22nm and beyond' is described with ITRS (International Technology Roadmap for Semiconductor) as a reference and the predicted trend has been amended to be less aggressive from the I TRS 2008 Update, resulting in the delay in the gate-length shrinkage for 3years in the short term and 5 years in the long term.
Book
ESL Design and Verification: A Prescription for Electronic System Level Methodology
TL;DR: ESL DESIGN & VERIFICATION offers a true prescriptive guide to ESL that reviews its past and outlines the best practices of today.