Your search keyword '"Yici Cai"' showing total 9 results

1. Dummy Fill Aware Buffer Insertion after Layer Assignment Based on an Effective Estimation Model

Author

Yanming Jia, Yici Cai, and Xianlong Hong

Subjects

Very-large-scale integration, Interconnection, Hardware_MEMORYSTRUCTURES, Speedup, Computer science, Applied Mathematics, Hardware_PERFORMANCEANDRELIABILITY, Computer Graphics and Computer-Aided Design, Capacitance, Design for manufacturability, Position (vector), Chemical-mechanical planarization, Signal Processing, Hardware_INTEGRATEDCIRCUITS, Electrical and Electronic Engineering, Physical design, Simulation

Abstract

This paper studies the impact of dummy fill for chemical mechanical polishing (CMP)-induced capacitance variation on buffer insertion based on a virtual CMP fill estimation model. Compared with existing methods, our algorithm is more feasible by performing buffer insertion not in post-process but during early physical design. Our contributions are threefold. First, we introduce an improved fast dummy fill amount estimation algorithm based on [4], and use some speedup techniques (tile merging, fill factor and amount assigning) for early estimation. Second, based on some reasonable assumptions, we present an optimum virtual dummy fill method to estimate dummy position and the effect on the interconnect capacitance. Then the dummy fill estimation model was verified by our experiments. Third, we use this model in early buffer insertion after layer assignment considering the effects of dummy fill. Experimental results verified the necessity of early dummy fill estimation and the validity of our algorithm. Buffer insertion considering dummy fill during early physical design is necessary and our algorithm is promising.

Published

2008

2. Early Stage Power Supply Planning: A Heuristic Method for Codesign of Power/Ground Network and Floorplan

Author

Yici Cai, Jin Shi, Xianlong Hong, and Xiaoyi Wang

Subjects

Mathematical optimization, Speedup, Computer science, Heuristic (computer science), Applied Mathematics, Real-time computing, Topology (electrical circuits), Hardware_PERFORMANCEANDRELIABILITY, Computer Graphics and Computer-Aided Design, Floorplan, Power (physics), Signal Processing, Hardware_INTEGRATEDCIRCUITS, G-network, Electrical and Electronic Engineering, Routing (electronic design automation), Power network design

Abstract

It's a trend to consider the power supply integrity at early stage to improve the design quality. Specifically, floorplanning process is modified to improve the power supply as well. In the modified floorplanning process, both the floorplan and power/ground (P/G) network are adjusted to search for optimal floorplan as well as the most robust power supply. In this paper, we propose a novel algorithm to carry out this modified floorplanning. A new analytical method is proposed to estimate the voltage drop while the floorplan is varying constantly. This fast analytical voltage drop estimating method is plugged into the modified floorplanner to speed up the whole floorplanning process. Compared with previous methods, our algorithm can search for the optimal floorplan with consideration of power supply integrity more efficiently and therefore leads to better results. Furthermore, this paper also proposes a novel heuristic method to optimize the topology of P/G network. This optimization algorithm could construct a more robust power supply system. Experimental results show the method can speedup the IR-drop aware floorplanning process by about 10 times and reduce the routing area of P/G network while maintaining the floorplan quality and power supply integrity.

Published

2008

3. Logic and Layout Aware Level Converter Optimization for Multiple Supply Voltage

Author

Liangpeng Guo, Yici Cai, Qiang Zhou, and Xianlong Hong

Subjects

Scheme (programming language), Computer science, Applied Mathematics, Real-time computing, Voltage islands, Converters, Computer Graphics and Computer-Aided Design, Power (physics), Physical level, Work (electrical), Signal Processing, Level converter, Electronic engineering, Electrical and Electronic Engineering, computer, Voltage, computer.programming_language

Abstract

Multiple supply voltage (MSV) is an effective scheme to achieve low power. Recent works in MSV are based on physical level and aim at reducing physical overheads, but all of them do not consider level converter, which is one of the most important issues in dual-vdd design. In this work, a logic and layout aware methodology and related algorithms combining voltage assignment and placement are proposed to minimize the number of level converters and to implement voltage islands with minimal physical overheads. Experimental results show that our approach uses much fewer level converters (reduced by 83.23% on average) and improves the power savings by 16% on average compared to the previous approach [1]. Furthermore, the methodology is able to produce feasible placement with a small impact to traditional placement goals.

Published

2008

4. Low Power Gated Clock Tree Driven Placement

Author

Xianlong Hong, Yici Cai, Jiang Hu, and Weixiang Shen

Subjects

Clock signal, Computer science, Applied Mathematics, Underclocking, Clock gating, Digital clock manager, Parallel computing, Clock skew, Computer Graphics and Computer-Aided Design, Timing failure, Clock domain crossing, Signal Processing, Electrical and Electronic Engineering, CPU multiplier

Abstract

As power consumption of the clock tree dominates over 40% of the total power in modern high performance VLSI designs, measures must be taken to keep it under control. One of the most effective methods is based on clock gating to shut off the clock when the modules are idle. However, previous works on gated clock tree power minimization are mostly focused on clock routing and the improvements are often limited by the given registers placement. The purpose of this work is to navigate the registers during placement to further reduce the clock tree power based on clock gating. Our method performs activity-aware register clustering that reduces the clock tree power not only by clumping the registers into a smaller area, but also by pulling the registers with the similar activity patterns closely to shut off the clock more time for the resultant subtrees. In order to reduce the impact of signal nets wirelength and power due to register clustering, we apply the timing and activity based net weighting in [14], which reduces the nets switching power by assigning a combination of activity and timing weights to the nets with higher switching rates or more critical timing. To tradeoff the power dissipated by the clock tree and the control signal, we extend the idea of local ungating in [6] and propose an algorithm of gate control signal optimization, which still sets the gate enable signal high if a register is active for a number of consecutive clock cycles. Experimental results on a set of MCNC benchmarks show that our approach is able to reduce the power and total wirelength of clock tree greatly with minimal overheads.

Published

2008

5. Stochastic Interconnect Tree Construction Algorithm with Accurate Delay and Power Consideration

Author

Yi Zou, Yici Cai, Xianlong Hong, and Yibo Wang

Subjects

Computer science, Applied Mathematics, Integrated circuit design, Dissipation, Computer Graphics and Computer-Aided Design, Power (physics), Power optimization, Signal Processing, Simulated annealing, Stochastic optimization, Electrical and Electronic Engineering, Routing (electronic design automation), Algorithm, Smoothing

Abstract

Buffer insertion plays a great role in modern global interconnect optimization. But too many buffers exhaust routing resources, and result in the rise of the power dissipation. Unfortunately, simplified delay models used by most of the present buffer insertion algorithms may introduce redundant buffers due to the delay estimation errors, whereas accurate delay models expand the solution space significantly, resulting in unacceptable runtime. Moreover, the power dissipation problem becomes a dominant factor in the state-of-the-art IC design. Not only transistor but also interconnect should be taken into consideration in the power calculation, which makes us have to use an accurate power model to calculate the total power dissipation. In this paper, we present two stochastic optimization methods, simulated annealing and solution space smoothing, which use accurate delay and power models to construct buffered routing trees with considerations of buffer/wire sizing, routing obstacles and delay and power optimization. Experimental results show our methods can save much of the buffer area and the power dissipation with better solutions, and for the cases with pins ≤ 15, the runtime of solution space smoothing is tens of times faster.

Published

2007

6. Voltage Island Generation in Cell Based Dual-Vdd Design

Author

Yici Cai, Bin Liu, Xianlong Hong, and Qiang Zhou

Subjects

Standard cell, business.industry, Computer science, Applied Mathematics, Flow (psychology), Electrical engineering, Static timing analysis, Dissipation, Computer Graphics and Computer-Aided Design, Dual (category theory), Power (physics), Signal Processing, Hardware_INTEGRATEDCIRCUITS, CPU core voltage, Electrical and Electronic Engineering, business, Voltage

Abstract

The voltage island style has been widely accepted as an effective way to design low power high performance chips. This paper proposes an automated voltage island generation flow in standard cell based designs. Two important objectives in voltage island designs are addressed in this flow: 1) reducing power dissipation under given performance constraints; 2) reducing implementation overheads, mainly layout overheads caused by cell clustering to form islands. The first objective is handled with timing and power driven netweighting and timing analysis in voltage assignment. For the second objective, we propose layout aware voltage assignment, i.e., voltage assignment during placement. We iteratively perform the following to adjustments: adjustment on voltage assignment to facilitate voltage island generation, and adjustment on cell locations to cluster cells in voltage islands. These iterations lead to a flow featured with tightly integrated voltage assignment and cell placement. Experimental results have demonstrated the advantages of our approach.

Published

2007

7. Navigating Register Placement for Low Power Clock Network Design

Author

Jiang Hu, Chin-Ngai Sze, Xianlong Hong, Qiang Zhou, Yongqiang Lu, Liang Huang, and Yici Cai

Subjects

Standard cell, Very-large-scale integration, Computer science, business.industry, Applied Mathematics, Skew, Context (language use), Computer Graphics and Computer-Aided Design, High tech, Clock network, Signal Processing, Hardware_INTEGRATEDCIRCUITS, Benchmark (computing), Electronic design automation, Electrical and Electronic Engineering, Telecommunications, business

Abstract

With VLSI design development, the increasingly severe power problem requests to minimize clock routing wirelength so that both power consumption and power supply noise can be alleviated. In contrast to most of traditional works that handle this problem only in clock routing, we propose to navigate standard cell register placement to locations that enable further less clock routing wirelength and power. To minimize adverse impacts to conventional cell placement goals such as signal net wirelength and critical path delay, the register placement is carried out in the context of a quadratic placement. The proposed technique is particularly effective for the recently popular prescribed skew clock routing. Experiments on benchmark circuits show encouraging results.

Published

2005

8. A Fast Delay Computation for the Hybrid Structured Clock Network

Author

Sheldon X.-D. Tan, Yi Zou, Yici Cai, Qiang Zhou, and Xianlong Hong

Subjects

Synchronous circuit, Computer science, Clock signal, Applied Mathematics, Real-time computing, Elmore delay, Clock gating, Hardware_PERFORMANCEANDRELIABILITY, Digital clock manager, Clock skew, Computer Graphics and Computer-Aided Design, Clock network, Computer Science::Hardware Architecture, Signal Processing, Hardware_INTEGRATEDCIRCUITS, Electrical and Electronic Engineering, Algorithm, CPU multiplier

Abstract

This paper presents a novel approach to reducing the complexity of the transient linear circuit analysis for a hybrid structured clock network. Topology reduction is first used to reduce the complexity of the circuits and a preconditioned Krylov-subspace iterative method is then used to perform the nodal analysis on the reduced circuits. By proper selection of the simulation time step and interval based on Elmore delays, the delay of the clock signal between the clock source and the sink node as well as the clock skews between the sink nodes can be computed efficiently and accurately. Our experimental results show that the proposed algorithm is two orders of magnitude faster than HSPICE without loss of accuracy and stability. The maximum error is within 0.4% of the exact delay time.

Published

2005

9. Crosstalk and Congestion Driven Layer Assignment Algorithm

Author

Bin Liu, Qiang Zhou, Xianlong Hong, and Yici Cai

Subjects

Very-large-scale integration, Imagination, Computer science, Applied Mathematics, Capacitive sensing, media_common.quotation_subject, Hardware_PERFORMANCEANDRELIABILITY, Computer Graphics and Computer-Aided Design, Inductive coupling, Effective algorithm, Crosstalk, Search engine, Signal Processing, Hardware_INTEGRATEDCIRCUITS, Noise control, Electrical and Electronic Engineering, Algorithm, media_common

Abstract

In VDSM era, crosstalk is becoming a more and more vital factor in high performance VLSI designs, making noise mitigation in early design stages necessary. In this paper, we propose an effective algorithm optimizing crosstalk under congestion constraint in the layer assignment stage. A new model for noise severity measurement is developed where wire length is used as a scale for the noise immunity, and both capacitive and inductive coupling between sensitive nets are considered. We also take shield insertion into account for further crosstalk mitigation. Experimental results show that our approach could efficiently reduce crosstalk noise without compromising congestion compared to the algorithm proposed in [1].

Published

2005