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Construction of Reconfigurable Clock Trees for MCMM Designs Using Mode Separation and Scenario Compression

The clock networks of many modern circuits have to operate in multiple corners and multiple modes... (more)

On Battery Recovery Effect in Wireless Sensor Nodes

With the perennial demand for longer runtime of battery-powered Wireless Sensor Nodes (WSNs),... (more)

Efficient Algorithms for Discrete Gate Sizing and Threshold Voltage Assignment Based on an Accurate Analytical Statistical Yield Gradient

In this article, we derive a simple and accurate expression for the change in timing yield due to a... (more)

N-Detection Test Sets for Circuits with Multiple Independent Scan Chains

In a circuit with multiple independent scan chains, it is possible to operate groups of scan chains independently in functional or shift mode. This... (more)

Library-Based Placement and Routing in FPGAs with Support of Partial Reconfiguration

While traditional Field-Programmable Gate Array design flow usually employs fine-grained tile-based placement, modular placement is increasingly... (more)

Index-Resilient Zero-Suppressed BDDs

Zero-Suppressed Binary Decision Diagrams (ZDDs) are widely used data structures for representing and handling combination sets and Boolean functions. In particular, ZDDs are commonly used in CAD for the synthesis and verification of integrated circuits. The purpose of this article is to design an error-resilient version of this data structure: a... (more)

NEWS

Best Paper Award: Congratulations to Chung-Wei Lin, Bowen Zheng, Qi Zhu, and Alberto Sangiovanni-Vincentelli on receiving the 2016 ACM TODAES Best Paper Award for their article titled Security-Aware Design Methodology and Optimization for Automotive Systems, ACM Transactions on Design Automation of Electronic Systems (TODAES), Volume 21, Issue 1, Article 18, November 2015.

ACM TODAES new page limit policy: Manuscripts must be formatted in the ACM Transactions format; a 25-page limit applies to the final paper. Rare exceptions are possible if recommended by the reviewers and approved by the Editorial Board.

ORCID is a community-based effort to create a global registry of unique researcher identifiers for the purpose of ensuring proper attribution of works to their creators. When you submit a manuscript for review, you will be presented with the opportunity to register for your ORCID.

Forthcoming Articles
Statistical Rare Event Analysis and Parameter Guidance by Elite Learning Sample Selection

Accurately estimating the failure region of rare events for memory-cell and analog circuit blocks under process variations is a challenging task. In this article, we propose a new statistical method, called EliteScope to estimate the circuit failure rates in rare event regions and to provide conditions of parameters to achieve targeted performance. The new method is based on the iterative blockage framework to reduce the number of samples. But it consists of two new techniques to improve existing methods. First, the new approach employs an elite learning sample selection scheme, which can consider the effectiveness of samples and well-coverage for the parameter space. As a result, it can reduce additional simulation costs by pruning less effective samples while keeping the accuracy of failure estimation. Second, the EliteScope identifies the failure regions in terms of parameter spaces to provide a good design guidance to accomplish the performance target. It applies variance based feature selection to find the dominant parameters and then determine the in-spec boundaries of those parameters.We demonstrate the advantage of our proposed method using several memory and analog circuits with different number of process parameters.Experiments on four circuit examples show that it EliteScope achieves a significant improvement on failure region estimation in terms of accuracy and simulation cost over traditional approaches.The 16-bit 6T-SRAM column example also demonstrate that the new method is scalable for handling large problems with large number of process variables.

An Effective Floorplan-Guided Placement Algorithm for Large-Scale Mixed-Size Designs

Exploring Energy-Efficient Cache Design in Emerging Mobile Platforms

Mobile devices are quickly becoming the most widely used processors in consumer devices. Since their major power supply is battery, the energy-efficient computing is highly desired. In this paper, we focus on the energy-efficient cache design in emerging mobile platforms. We observe that more than 40% of L2 cache accesses are OS kernel accesses in interactive smartphone applications. Such frequent kernel accesses cause serious interferences between the user and kernel blocks in the L2 cache, leading to unnecessary block replacements and high L2 cache miss rate. We first propose to statically partition the L2 cache into two separate segments which can only be accessed by the user code and kernel code, respectively. Meanwhile, the overall size of the two segments is shrunk, which reduces the energy consumption while still maintains the similar cache miss rate. We then find completely different access behaviors between the two separated kernel and user segments, and explore the multi-retention STT-RAM based user and kernel segments to obtain higher energy savings in this static partition-based cache design. Finally, we propose to dynamically partition the L2 cache into the user and kernel segments to minimize the overall cache size. We also integrate the short-retention STT-RAM into this dynamic partition-based cache design for the maximal energy savings. The experimental results show that our static technique reduces the cache energy consumption by 75% with 2% performance loss, and our dynamic technique further shows the strong capability in reducing the cache energy consumption by 85% with only 3% performance loss.

Hierarchical Statistical Leakage Analysis and Its Application

In this paper, we investigate a hierarchical statistical leakage analysis design flow where module-level statistical leakage models supplied by IP vendors are used to improve the efficiency and capacity of SoC statistical leakage power analysis. To solve the challenges of incorporating spatial correlations between IP modules at system level, we first propose a method to extract correlation-inclusive leakage models. Then a method to handle the spatial correlations at system level is also proposed. Using this method the runtime of system statistical leakage analysis can be significantly improved without disclosing the netlists of the IP modules. Experimental results demonstrate that the proposed hierarchical statistical leakage analysis method is about 100 times faster than the gate-level full-chip statistical leakage analysis methods while the accuracy of statistical leakage analysis is still well maintained. In addition, we also investigate one application of this hierarchical statistical leakage analysis method, a leakage-yield-driven floorplanning framework, to demonstrate the benefits of such hierarchical statistical leakage analysis method in practice. At the same time, we also propose an optimized hierarchical leakage analysis method dedicated for the floorplanning framework. The effectiveness of the floorplanning framework and the optimized method is also confirmed by the experimental results.

Hardware Trojans: Lessons Learned After One Decade of Research

Given the increasing complexity of modern electronics and the cost of fabrication, entities from around the globe have become more heavily involved in all phases of the electronics supply chain. In this environment, hardware Trojans (i.e., malicious modifications or inclusions made by untrusted third parties) pose major security concerns, especially for those integrated circuits (ICs) and systems used in critical applications and cyber infrastructure. While hardware Trojans have been explored significantly in academia over the last decade, there remains room for improvement. In this article, we examine the research on hardware Trojans from the last decade and attempt to capture the lessons learned. A comprehensive adversarial model taxonomy is introduced and used to examine the current state-of-the-art. Then the past countermeasures and publication trends are categorized based on adversarial model and topic. Through this analysis, we identify what has been covered and the important problems that are under investigated. We also identify the most critical lessons for those new to the field and suggest a roadmap for future hardware Trojan research.

Probabilistic Model Checking for Uncertain Scenario-Aware Data Flow

The Scenario-Aware Dataflow (SADF) model is based on concurrent actors that interact via channels. It combines streaming data and control to capture scenarios while incorporating hard and soft real-time aspects. To model data-flow computations that are subject to uncertainty, SADF models are equipped with random primitives. We propose to use probabilistic model checking to analyse uncertain SADF models. We show how measures such as expected time, long-run objectives like throughput, as well as timed reachability can a given system configuration be reached within a deadline with high probability?can be automatically determined. The crux of our method is a compositional semantics of SADF with exponential agent execution times combined with automated abstraction techniques akin to partial-order reduction. We present the semantics in detail, and show how it accommodates the incorporation of execution platforms enabling the analysis of energy consumption. The feasibility of our approach is illustrated by analysing several quantitative measures of an MPEG-4 decoder and an industrial face recognition application.

Resource Sharing Centric Dynamic Voltage and Frequency Scaling for CMP Cores, Uncore and Memory

With the breakdown of Dennards Scaling over the past decade, performance growth of modern microprocessor design has largely relied on scaling core count in CMPs (Chip Multiprocessors). The challenge of chip power density, however, remains and demands new power management solutions. This work investigates a coordinated CMP system-wide DVFS (Dynamic Voltage and Frequency Scaling) policy centered around shared resource utilization. This approach represents a new angle on the problem, different from the conventional core-workload driven approaches. The key component of our work is per-core DVFS leveraging a technique similar to TCP-Vegas congestion control from networking. This TCP-Vegas-based DVFS can potentially identify the synergy between power reduction and performance improvement. Further, this work includes uncore (on-chip interconnect and shared last level cache) and main memory DVFS policies coordinated with the per-core DVFS policy. Full system simulations on PARSEC benchmarks show that our technique reduces total energy dissipation by over 47% across all benchmarks with less than 2.3% performance degradation. Our work also leads to 12% more energy savings compared to a prior work CMP DVFS policy.

Ensemble Reduction via Logic Minimization

An ensemble of machine learning classifiers usually improves generalization performance and is useful for many applications. However, the extra memory storage and computational cost incurred from the combined models often limits their potential applications. In this paper, we propose a new ensemble reduction method called CANOPY that significantly reduces memory storage and computations. CANOPY uses a technique from logic minimization for digital circuits to select and combine particular classification models from an initial pool in the form of a Boolean function, through which the reduced ensemble performs classification. Experiments on 20 UCI data sets demonstrate that CANOPY either outperforms or is very competitive with the initial ensemble and one state-of-the-art ensemble reduction method in terms of generalization error, and is superior to all existing reduction methods surveyed for identifying the smallest numbers of models in the reduced ensembles.

Hierarchical Dynamic Thermal Management Method for High-Performance Many-Core Microprocessors

It is challenging to manage the thermal behavior of many-core microprocessors while still keep it running at high-performance since control complexity increases as core number increases. In this paper, a novel hierarchical dynamic thermal management method is proposed to overcome this challenge. The new method employs model predictive control (MPC) with task migration and DVFS scheme to ensure smooth control behavior and negligible computing performance sacrifice. In order to be scalable to many-core system, the hierarchical control scheme is designed with two levels. At the lower level, the cores are spatially clustered into blocks, and local task migration is used to match current power distribution with the optimal distribution calculated by MPC. At the upper level, global task migration is used with the unmatched powers from the lower level. A modified iterative minimum cut algorithm is used to assist the task migration decision making if the power number is large at the upper level. Finally, DVFS is applied to regulate the remaining unmatched powers. Experiments show that the new method is highly scalable to many-core microprocessors with little computing performance compromises and outperforms existing methods.

A Fast and Scalable Multi-dimensional Multiple-choice Knapsack Heuristic

Power, Area, and Performance Optimization of Standard Cell Memory Arrays through Controlled Placement

Standard cell memories (SCMs) are an alternative to foundry provided SRAM macros that can be defined, synthesized and placed and routed as part of the digital design flow, providing design flexibility, energy efficiency, low-voltage operation, and area efficiency for small memories. However, implementing an SCM block with a standard digital flow often fails to exploit the distinct and regular structure of such an array. In this paper, we present a design methodology for optimizing the physical implementation of SCMs, as part of the standard design flow. This methodology introduces controlled placement, leading to a structured, non-congested layout with high utilization, resulting in reduced area, wire-length, and power consumption. This methodology is demonstrated on SCM macros of various sizes and aspect ratios in a 28nm FD-SOI technology, and compared with non-controlled SCMs, as well as with SRAM macros. The controlled SCMs provide an average 25% reduction in area, as compared to non-controlled implementations. Power and performance comparisons of controlled SCM blocks of a commonly found 256X32 (1kbyte) memory with foundry provided SRAMs show over 65% and 10% reduction in read and write power, respectively, while providing faster access than their SRAM counterparts, despite being of an aspect ratio that is typically unfavorable for SCMs. In addition, the SCM blocks function correctly with a supply voltage as low as 0.3V, well below the lower limit of even the SRAM macros optimized for low voltage operation. The controlled placement methodology is applied within a full-chip physical implementation flow of an OpenRISC based test-chip, providing more than 50% power reduction, as compared to equivalently sized compiled SRAMs under a benchmark application.

Accurate Modeling of Nonideal Low Power PWM DC-DC Converters Operating in CCM and DCM using Enhanced Circuit Averaging Techniques

The development of enhanced modeling techniques for the simulation of switched-mode Pulse Width Modulated (PWM) DC-DC power converters using circuit averaging is the main focus of this paper. The circuit averaging technique has traditionally been used to model the behavior of PWM DC-DC converters without considering important nonideal characteristics of the switching devices. As a result, most of these existing approaches present simplified models that are ideal or linearized, and do not accurately account for the performance characteristics of the converter. This is especially problematic for low-power applications. In this paper, we present an enhanced nonideal behavioral circuit averaged model that makes the simulation of DC-DC converters both computationally efficient and accurate, thereby presenting an important tool for circuit designers. Experimentally, we show that our Verilog-A based new model allows for accurate simulation of both Buck and Boost type PWM converters operating in either CCM or DCM modes while providing more than one order of magnitude speedup over the transistor-level simulation.

Cyber-Physical Co-Simulation Framework for Smart Cells in Scalable Battery Packs

This paper introduces a Cyber-physical Co-Simulation Framework (CPCSF) for design and analysis of smart cells that enable scalable battery pack and Battery Management System (BMS) architectures. In contrast to conventional cells in battery packs, where all cells are monitored and controlled centrally, each smart cell is equipped with its own electronics in the form of a Cell Management Unit (CMU). The CMU maintains the cell in a safe and healthy operating state, while system-level battery management functions are performed by cooperation of the smart cells via communication. Here, the smart cells collaborate in a self-organizing fashion without a central controller instance. This enables maximum scalability and modularity, significantly simplifying integration of battery packs. However, for this emerging architecture, system-level design methodologies and tools have not been investigated yet. Consequently, the systematic design of the hardware/software architecture of smart cells requires a cyber-physical co-simulation of the network of smart cells which has to include all the components from the software, electronic, electric and electrochemical domains. This comprises distributed BMS algorithms running on the CMUs, the communication network, control circuitry, cell balancing hardware and battery cell behavior. For this purpose, we introduce a CPCSF which enables rapid design and analysis of smart cell hardware/software architectures. Our framework is then applied to investigate request-driven active cell balancing strategies that make use of the decentralized system architecture. In an exhaustive analysis on a realistic 21.6kWh Electric Vehicle (EV) battery pack containing 96 smart cells in series, the CPCSF is able to simulate hundreds of balancing runs together with all system characteristics, using the proposed request-driven balancing strategies at highest accuracy within an overall time frame of several hours. Consequently, the presented CPCSF for the first time allows to quantitatively and qualitatively analyze the behavior of smart cell architectures for real-world applications.

Security Analysis of Arbiter PUF and Its Lightweight Compositions Under Predictability Test

Unpredicatability is an important security feature of Physically Unclonable Function (PUF) in the context of statistical attacks, where the correlation between challenge-response pairs is explicitly exploited. In existing literature on PUFs, Hamming Distance test, denoted by HDT(t), was proposed to evaluate the unpredictability of PUFs, which is a simplified case of the Propagation Criterion test PC(t). The objective of these test schemes is to estimate the output transition probability when there are t or less than t bits flips, and ideally this probability value should be 0.5. In this work, we show that aforementioned two test schemes are not enough to ensure the unpredictability of a PUF design. We propose a new test which is denoted as HDT(e,t). This test scheme is a fine-tuned version of the previous schemes, as it considers the flipping bit pattern vector e along with parameter t. As a contribution, we provide a comprehensive discussion and analytic interpretation of the HDT(t), PC(t) and HDT(e,t) test schemes for Arbiter PUF (APUF), XOR PUF and Lightweight Secure PUF (LSPUF). Our analysis establishes that the HDT(e,t) test is more general in comparison with HDT(t) and PC(t) tests. In addition, we demonstrate scenarios where the adversary can exploit the information obtained from the analysis of HDT(e,t) properties of APUF, XOR PUF and LSPUF to develop statistical attacks on them, if the ideal value of HDT(e,t)=0.5 is not achieved for a given PUF. We validate our theoretical observations using the simulated and FPGA implemented APUF, XOR PUF and LSPUF designs.

Periodic Scan-in States to Reduce the Input Test Data Volume for Partially-Functional Broadside Tests

This paper describes a procedure for test data compression targeting functional and partially-functional broadside tests. The scan-in state of such a test is either a reachable state or has a known Hamming distance from a reachable state. Reachable states are fully-specified, while the popular LFSR-based test data compression methods require the use of incompletely-specified test cubes. The test data compression approach considered in this paper is based on the use of periodic scan-in states. Such states require the storage of a period that can be significantly shorter than a scan-in state, thus providing test data compression. The procedure computes a set of periods that is sufficient for detecting all the detectable target faults. Considering the scan-in states that the periods produce, the procedure ranks the periods based on the distances of the scan-in states from reachable states, and the lengths of the periods. Functional and partially-functional broadside tests are generated preferring shorter periods with smaller Hamming distances. The results are compared with those of an LFSR-based approach.

Error-Correcting Sample Preparation with Cyberphysical Digital Microfluidic Lab-on-Chip

Digital (droplet-based) microfluidic technology offers an attractive platform for implementing a wide variety of biochemical laboratory protocols, such as point-of-care diagnosis, DNA analysis, target detection, and drug discovery. However, because of the inherent uncertainty of fluidic operations, the outcome of biochemical experiments performed on-chip can be erroneous even if the chip is tested a priori and deemed to be defect-free. In this paper, we address an important error-recoverability problem in the context of sample preparation. We assume a cyberphysical environment, in which the physical errors, when detected online at selected checkpoints with integrated sensors, can be corrected through recovery techniques. However, almost all prior work on error recoverability used a checkpointing-based rollback approach, i.e., re-execution of certain portion of the protocol starting from the previous checkpoint. Unfortunately, such techniques are expensive both in terms of assay-completion time and reagent cost, and can never ensure full error-recovery in a deterministic sense. We consider imprecise droplet mix-split operations and present a novel roll-forward approach where the erroneous droplets, thus produced, are used in the error-recovery process, instead of being discarded or re-mixed. All erroneous droplets participate in the dilution process and they mutually cancel or reduce the concentration error when the target droplet is reached.We also present a rigorous analysis that discovers the role of volumetric error on the concentration of a sample to be prepared, and we describe the layout of a lab-on-chip that can execute the proposed cyberphysical dilution algorithm. Our analysis reveals that fluidic errors caused by unbalanced droplet splitting can be classified as being either critical or non-critical, and only those of the former type require correction to achieve error-free sample dilution. Simulation experiments on various sample preparation test cases demonstrate the effectiveness of the proposed method.

Efficient Security Monitoring with Core Debug Interface in an Embedded Processor

Many researchers have proposed the concept of security monitoring, which watches the execution behavior of a program (e.g, control-flow or data-flow) running on the machine to find the existence of attacks. Among the proposed approaches in the literature, software-based works are known to be relatively easy to be adopted to the commercial products, but may incur tremendous runtime overhead. Although many hardware-based solutions provide high performance, the inherent problem of them is that they usually mandate drastic change to the internal processor architecture. More recent ones to minimize the change have proposed external devices for security monitoring. However, these approaches intrinsically suffer from the high overhead to communicate with their external devices. Consequently, they either significantly lose performance, or inevitably make invasive modifications to the processor inside. Our solution also relies on external hardware for security monitoring, but unlike theirs, ours exploits the core debug interface (CDI) to tackle the communication issue. CDI is readily available in most commercial processors for debugging so that we can build our system simply by plugging our hardware to the processor via CDI, precluding the need for altering the processor itself. To validate the effectiveness of our approach, we implement two well-known monitoring techniques on our proposed framework; dynamic information flow tracking and branch regulation. The empirical results on our FPGA prototype show that our external hardware engines efficiently perform the monitoring schemes mainly thanks to the support of CDI that helps us cut substantially down the communication costs.

Non-enumerative Generation of Path Delay Distributions and its Application to Critical Path Selection

A Monte Carlo based approach is proposed capable of identifying in a path-implicit and scalable manner the distributions that describe the delay of every path in a combinational circuit. Furthermore, a scalable approach to select critical paths from a potentially exponential number of path candidates is presented. Paths and their delay distributions are stored in Zero Suppressed Binary Decision Diagrams. Experimental results on some of the largest ISCAS-89 and ITC-99 benchmarks shows that the proposed method is highly scalable and effective.

Streaming Sorting Networks

A Compact Implementation of Salsa20 and its Power Analysis Vulnerabilities

In this paper, we present a compact implementation of Salsa20 stream cipher that is targeted towards lightweight cryptographic devices such as RFID tags. The Salsa20 stream cipher, an ARX cipher, is used in high security cryptography in NEON instruction set embedded in ARM-based tablets and smartphones. The existing literature shows that though classical cryptanalysis has been effective on reduced rounds of Salsa20, the stream cipher is immune to software side-channel attacks such as branch timing and cache timing attacks. To the best of our knowledge, this work is the first to perform hardware power analysis attacks, where we evaluate the resistance of all the eight keywords in the proposed compact implementation of Salsa20. Our technique targets the three subrounds of the first round of the implemented Salsa20. The CPA attack has an attack complexity of $2^{19}$. Based on extensive experiments on a compact implementation of Salsa20, we demonstrate that all these keywords can be recovered within $20000$ queries on Salsa20. The attacks show a varying resilience of the key words against correlation power analysis (CPA) that has not yet been observed in any stream or block cipher in present literature. This makes the architecture of this stream cipher interesting from the side-channel analysis perspective. Also, we propose a light-weight countermeasure which mitigates the leakage in the power traces as shown in the results of Welch's $t$-test statistics. The hardware area overhead of the proposed countermeasure is only $14\%$ and is designed with compact implementation in mind.

DReAM: an Approach to Estimate Per-Task DRAM Energy in Multicore Systems

Per-task energy estimation in multicore systems would allow performing per-task energy-aware task scheduling and energy-aware billing in data centers, among other applications. Per-task energy estimation is challenged by the interaction between tasks in shared resources, which impacts tasks' energy consumption in uncontrolled ways. Some accurate mechanisms have been devised recently to estimate per-task energy consumed on-chip in multicores, but there is a lack of such mechanisms for DRAM memories. This paper makes the case for accurate per-task DRAM energy metering in multicores, which opens new paths to energy/performance optimizations. In particular, the contributions of this paper are (i) an ideal per-task energy metering model for DRAM memories; (ii) DReAM, an accurate, yet low cost, implementation of the ideal model (less than 5% accuracy error when 16 tasks share memory); and (iii) a comparison with standard methods (even distribution and access-count based) proving that DReAM is more accurate than these other methods

Timing Path Driven Cycle Cutting for Sequential Controllers

Power and performance optimization of integrated circuits is performed by timing driven algorithms that operate on directed acyclic graphs. Sequential circuits and circuits with topological feedback contain cycles. Cyclic circuits must be represented as directed acyclic graphs to be optimized and evaluated using static timing analysis. Algorithms in commercial electronic design automation tools generate the required acyclic graphs by cutting cycles without considering timing paths. This work reports on a method for generating directed acyclic circuit graphs which do not cut the specified timing paths. The algorithm is applied to over 125 benchmark designs and asynchronous handshake controllers. The runtime is less than one second, even for even the largest published controllers. Circuit timing graphs generated using this method retain the necessary timing paths which enables circuit validation and optimization employing the commercial tools. Additional benefits show these designs are on an average a third in size, operate 33.3% faster, and consume one fourth the energy.

Path Selection for Real-Time Communication on Priority-Aware NoCs

This work investigates selecting paths for communication flows when deploying a hard real-time application on a chip-multiprocessor system. This chip-multiprocessor system uses a priority-aware real-time network-on-chip interconnect between the processors. Given a mapping of the computation tasks onto the chip-multiprocessor, the problem we address in this work is to discover paths the communication flows take such that hard real-time deadlines of flows are met. Furthermore, we must ensure that deadlines are met even in the presence of direct and indirect interference from other flows sharing network links on the path. To achieve this, our algorithm utilizes a stage-level analysis for real-time communication to determine the impact of a network link being used by a flow, and its effect on other flows sharing the link. The path selection algorithm uses heuristics such as selecting links with least interference, and considering lower priority flows when dedicating links to paths of higher priority flows since an optimal one is intractable. The algorithm also considers constraints on the number of virtual channels at each router port in the network. The statistically significant experimental results show an improvement in schedulability by 5% and 12% over existing path selection algorithms such as Minimum Interference Routing and Widest Shortest Path algorithms, respectively. We also present a set-top box case study to further illustrate the benefits of using the proposed algorithm.

Area-aware Decomposition for Single-Electron Transistor Arrays

Single-electron transistor (SET) at room temperature has been demonstrated as a promising device for extending Moores law due to its ultra-low power consumption. Existing SET synthesis methods synthesize a Boolean network into a large reconfigurable SET array where the height of SET array equals the number of primary inputs. However, recent experiments on device level have shown that this height is restricted to a small number, say 10, rather than arbitrary value due to the ultra-low driving strength of SET devices. On the other hand, the width of an SET array is also suggested to be a small value. Consequently, it is necessary to decompose a large SET array into a set of small SET arrays where each of them realizes a subfunction of the original circuit with no more than 10 inputs. Thus, this paper presents two techniques for achieving area-efficient SET array decomposition: One is a width minimization algorithm for reducing the area of a single SET array; the other is a depth-bounded mapping algorithm, which decomposes a Boolean network into many sub-functions such that the widths of the corresponding SET arrays are balanced. The width minimization algorithm leads to a 25%~41% improvement compared to the state-of-the-art, and the mapping algorithm achieves a 60% reduction in total area compared to a nai1ve approach.

Improving PCM Endurance with a Constant-cost Wear Leveling Design

Improving PCM endurance is a fundamental issue when it is considered as an alternative to replace DRAM as main memory. Memory-based wear leveling is an effective way to improve PCM endurance, but its major challenge is how to efficiently determine the appropriate memory pages for allocation or swapping. In this paper, we present a constant-cost wear leveling design that is compatible with existing memory management. Two implementations, namely bucket-based and array-based wear leveling, with constant-time (or nearly zero) search cost are proposed to be integrated into the OS layer and the hardware layer respectively, as well as to trade between time and space complexity. The results of experiments conducted based on an implementation in Android, as well as simulations with popular benchmarks, to evaluate the effectiveness of the proposed design are very encouraging.

Obstacle-Avoiding Wind Turbine Placement for Power Loss and Wake Effect Optimization

As finite energy resources are being consumed at faster rate than they can be replaced, renewable energy resources have drawn an extensive attention. Wind power development is one such example growing significantly throughout the world. The main difficulty in wind power development is that wind turbines interfere with each other. The produced turbulence, wake effect, directly reduces the power generation. In addition, wirelength of collection network among wind turbines is not merely an economic factor, but also it decides power loss in the wind farm. Moreover, in reality, obstacles (e.g., building, lake, etc.) exist in the wind farm which are unavoidable. Nevertheless, to the best of our knowledge, none of the existing works consider wake effect, wirelength and obstacle-avoiding all together in the wind turbine placement problem. In this paper, we propose an analytical method to obtain the obstacle-avoiding placement of wind turbines minimizing both power loss and wake effect. We also propose a post-processing method to fine-tune the solution obtained from the analytical method to find better solution. Simulation results show that our tool is 12x faster than the state-of-the-art industrial tool AWS OpenWind and 203x faster than the state-of-the-art academic tool TDA with almost the same produced power.

Ripple 2.0: Improved Movement of Cells in Routability-Driven Placement

Routability is one of the most important problems in high performance circuit designs. From the viewpoint of placement design, two major factors cause routing congestion: 1) interconnections between cells, and 2) connections on macro blockages. In this paper, we present a routability-driven placer Ripple 2.0 which emphasizes both kinds of routing congestion. Several techniques will be presented, including 1) cell inflation with routing path consideration, 2) congested cluster optimization, 3) routability-driven cell spreading, and 4) simultaneous routing and placement for routability refinement. With the official evaluation protocol, Ripple 2.0 outperforms other published academic routability-driven placers. Compared with top results in ICCAD 2012 contest, Ripple 2.0 achieves better detailed routing solution obtained by a commercial router.

FORTIS: A Comprehensive Solution for Establishing Forward Trust for Protecting IPs and ICs

With the advent of globalization in the semiconductor industry, it is necessary to prevent unauthorized usage of third party IPs (3PIPs), cloning and unwanted modification of 3PIPs, and unauthorized production of ICs. Due to the increasing complexity of ICs, system-on-chip (SoC) designers use various 3PIPs in their design to reduce time-to-market and development costs, which creates a trust issue between the SoC designer and the IP owners. In addition, as the ICs are fabricated around the globe, the SoC designers give fabrication contracts to offshore foundries to manufacture ICs and have little control over the fabrication process, including the total number of chips fabricated. Similarly, the 3PIP owners lack control over the number of fabricated chips and/or the usage of their IPs in an SoC. In this paper, we present a comprehensive solution for preventing IP piracy and IC overproduction by assuring forward trust between all entities involved in the SoC design and fabrication process. We propose a novel design flow to prevent IC overproduction and IP overuse. We have used asymmetric and symmetric key encryption, in a fashion similar to Pretty Good Privacy (PGP), to transfer keys from the SoC designer or 3PIP owners to the chips. In addition, we also propose to attach an IP digest (a cryptographic hash of the entire IP) to the header of an IP to prevent modification of the IP by the SoC designers. We have shown that our approach is resistant to various attacks with the cost of minimal area overhead.

Hybrid Power Management for Office Equipment

Office machines (such as printers, scanners, fax, and copiers) can consume significant amounts of power. Most office machines have sleep modes to save power. Power management of these machines are usually timeout-based: a machine sleeps after being idle long enough. Setting the timeout duration can be difficult: if it is too long, the machine wastes power during idleness. If it is too short, the machine sleeps too soon and too often the wakeup delay can significantly degrade productivity. Thus, power management is a tradeoff between saving energy and keeping response time short. Many power management policies have been published and one policy may outperform another in some scenarios. There is no definite conclusion which policy is always better. This paper describes two methods for office equipment power management. The first method adaptively reduces power based on a constraint of the wakeup delay. The second method is a hybrid method with multiple candidate policies and it selects the most appropriate power management policy. Using six months of request traces from 18 different printers, we demonstrate that the hybrid policy outperforms individual policies. We also discover that power management based on business hours does not produce consistent energy savings.

A Hardware-Assisted Energy-Efficient Processing Model for Activity Recognition using Wearables (post conference paper)

Wearables are being widely utilized in health and wellness applications, primarily due to the recent advances in the sensor and wireless communication, which enhance the promise of wearable systems in providing continuous and real-time monitoring and interventions. Wearables are generally composed of hardware/software components for collection, processing, and communication of physiological data. Practical implementation of wearable monitoring in real-life applications is currently limited due to notable obstacles. The wearability and form factor are dominated by the amount of energy needed for sensing, processing and communication. In this paper, we propose an ultra low-power granular decision making architecture, also called screening classifier, which can be viewed as a tiered wake up circuitry, consuming three orders of magnitude less power than the state-of-the-art low-power microcontrollers. This processing model operates based on computationally simple template matching modules, which is ideally performed with low sensitivity but operates at low power. Initial template matching rejects signals that are clearly not of interest from the signal processing chain keeping the rest of processing blocks idle. If the signal is likely of interest, the sensitivity and the power of the template matching modules are gradually increased and ultimately the main processing unit is activated. We pose optimization techniques to efficiently split a full template into smaller bins, called mini-templates, and activate only a subset of bins during each classification decision. Our experimental results on real data show that this signal screening model reduces power consumption of the processing architecture by a factor of 70% while the sensitivity of detection remains at least 80%.

Preface to Special Section on New Physical Design Techniques for the Next Generation Integration Technology

A Framework for Block Placement, Migration and Fast Searching in Tiled-DNUCA Architecture

Multicore processors have proliferated several domains ranging from small scale embedded systems to large datacenters, making tiled CMPs (TCMP) the essential next generation scalable architecture. NUCA archi-tectures help in managing the capacity and access time for such larger cache designs. It divides the last level cache (LLC) into multiple banks connected through on chip network. Static NUCA (SNUCA) has a fixed ad-dress mapping policy whereas dynamic NUCA (DNUCA) allows blocks to relocate nearer to the processing cores at runtime. To allow this DNUCA divides the banks into multiple banksets and a block can be placed in any bank within a particular bankset. The entire bankset may need to be searched to access a block. Optimal bankset searching mechanisms are essential for getting the benefits from DNUCA. This paper proposes a DNUCA based TCMP architecture called TLD-NUCA. It reduces the LLC access time of TCMP and also allows a heavily loaded bank to distribute its load among the underused banks. Instead of other DNUCA designs TLD-NUCA considers only one bankset, hence a block can be placed in any bank. Such relaxations results in more uniform load distribution than existing DNUCA based TCMP (T-DNUCA). Considering single bankset improves the utilisation factor but T-DNUCA cannot implement it because of its expensive searching mechanism. TLD-NUCA uses a centralised directory, called TLD, to search a block from all the banks. Experimental analysis found that TLD-NUCA improves performance by 6% as compared to T-DNUCA. The improvement is 12% as compared to the SNUCA based TCMP design.

State assignment and optimization of ultra high speed FSMs utilizing tri-state buffers

The logic synthesis of ultra high speed FSMs is presented. The state assignment is based on a well known method that uses output vectors. This technique is adjusted to include elements of two-level minimization and takes into account the limited number of terms contained in the logic cell. The state assignment is based on a special form of the binary decision tree. The second phase of the FSM design is logic optimization. The optimization method is based on tri-state buffers, thus making possible a one-logic-level FSM structure. The key point is to search partition variables that control the tri-state buffers. This technique can also be applied to combinational circuits or the output block of FSMs only. Algorithms for state assignment and optimization are presented and richly illustrated by examples. The method is dedicated to using specific features of complex programmable logic devices. Experimental results prove its effectiveness. The optimization method using tri-state buffers and a state assignment binary decision tree can be directly applied to FPGA-dedicated logic synthesis.

Critical-Path-Aware High-Level Synthesis with Distributed Controller for Fast Timing Closure

Floorplanning and Topology Synthesis for Application Specific Network-on-Chips with RF-Interconnect

Application-specific Network-on-Chip (ASNoC) has been proposed as a promising solution to address the global communication challenges in System-on-Chips. However, with the number of cores increasing, the on chip communication becomes more and more complex and the power consumption imposes the major challenge for designing ASNoCs. In this paper, we first time propose a four-stage floorplanning and topology synthesis approach for ASNoCs with Radio Frequency Interconnect (RF-I). Firstly, considering the advantage of RF-I in long distance on-chip communication, we integrate the floorplanning and clustering to explore the optimal clustering of cores, where the cores belonging to the same cluster will share the same switch for communications, form an island, and occupy a contiguous physical region. After the switches and network interfaces are inserted into the floorplan, the allocation of routing paths and the RF-I logical channels are integrated in an iterative procedure to generate fine-grain dynamically reconfigurable ASNoC topologies. Finally, considering the signal integrity of RF-I, we adjust the placement of the switches by a simulated annealing-based method to reduce the number of the RF-I routing corners. To evaluate the placement of switches, we propose a dynamical programming based method to route the transmission line and count the routing corners in linear time. The results show that, using RF-I, we can reduce the power consumption of ASNoCs by 20%-29%.

Partitioning and Data Mapping in Reconfigurable Cache and ScratchPad Memory based Architectures

Scratch Pad memory (SPM) is considered a useful component in the memory hierarchy, solely or along with caches, to meet the power and energy constraints as performance ceases to be the sole criteria for processor design. Although the efficiency of SPM is well known, its usage has been restricted owing to difficulties in programmability. Real applications usually have regions that are amenable to exploitation by either SPM or cache, and hence can benefit if the two are used in conjunction. Dynamically adjusting the local memory resources to suit application demand, can significantly improve the efficiency of the overall system. In this paper, we propose a compiler technique to map application data objects to SPM/cache and also partition the local memory between SPM and cache depending on the dynamic requirement of the application. First, we introduce a novel graph based structure to tackle data allocation in an application. Second, we use this to present a data allocation heuristic to map program objects for a fixed sized SPM-cache hybrid system that targets whole program optimization. We finally extend this formulation to adapt the SPM and cache sizes, as well as the data allocation as per the requirement of different application regions. We study the applicability of the technique on various workloads targeted at both SPM-Only and hardware reconfigurable memory system, and observe an average of 18% energy-delay improvement over state-of-the-art techniques.

Genetic Algorithm Based FPGA Architectural Exploration using Analytical Models

FPGA architectural optimization has emerged as one of the most important digital design challenges. Recent years, experimental methods have been replaced by analytical ones to find the optimized architecture. Time is the main reason for this replacement. Conventional Geometric Programming (GP) is a routine framework to solve analytical models; including area, delay and power models. In this paper, we discuss the application of Genetic Algorithm (GA) to the design of FPGA architectures. The performance model has been integrated into the Genetic Algorithm framework in order to investigate the impact of various architectural parameters on the performance-efficiency of FPGAs. This way, we are able to rapidly analyze FPGA architectures and select the best one. The main advantages of using GA versus GP are concurrency and speed. The results show that concurrent optimization of high-level architecture parameters including Look-up Table size (K) and Cluster size (N) and low-level parameters like scaling of transistors is possible for GA, whereas GP does not capture K and N under its concurrency and it needs to exhaustively search all possible combinations of K and N. The results also show that up to 104´ run time improvement in comparison with GP based analysis is achieved.

Bibliometrics

Publication Years 1996-2016
Publication Count 846
Citation Count 3951
Available for Download 846
Downloads (6 weeks) 2227
Downloads (12 Months) 22201
Downloads (cumulative) 347621
Average downloads per article 411
Average citations per article 5
First Name Last Name Award
Iris Bahar ACM Distinguished Member (2012)
Robert Brayton ACM Paris Kanellakis Theory and Practice Award (2006)
Krishnendu Chakrabarty ACM Distinguished Member (2008)
ACM Senior Member (2006)
Nikil D. Dutt ACM Distinguished Member (2007)
Franz Franchetti ACM Senior Member (2015)
ACM Gordon Bell Prize (2006)
Soheil Ghiasi ACM Senior Member (2015)
Matthew Guthaus ACM Senior Member (2013)
Pao-Ann Hsiung ACM Senior Member (2006)
Mary Jane Irwin ACM-W Athena Lecturer Award (2010)
ACM Distinguished Service Award (2005)
John Lee ACM Senior Member (2014)
Diana Marculescu ACM Distinguished Member (2011)
ACM Senior Member (2009)
Igor Markov ACM Distinguished Member (2011)
ACM Senior Member (2007)
Sally A McKee ACM Senior Member (2013)
Prabhat Mishra ACM Distinguished Member (2015)
ACM Senior Member (2010)
Saraju P. Mohanty ACM Senior Member (2010)
Trevor Mudge ACM-IEEE CS Eckert-Mauchly Award (2014)
Walid Najjar ACM Distinguished Member (2015)
ACM Senior Member (2014)
Steven M Nowick ACM Senior Member (2009)
Ian Parberry ACM Distinguished Member (2015)
Massoud Pedram ACM Distinguished Member (2008)
Sreeranga P Rajan ACM Distinguished Member (2014)
Bantwal R Rau ACM-IEEE CS Eckert-Mauchly Award (2002)
Sartaj K Sahni ACM Karl V. Karlstrom Outstanding Educator Award (2003)
Robert Schreiber ACM Distinguished Member (2006)
Sandeep K Shukla ACM Distinguished Member (2012)
ACM Senior Member (2007)
Anand Sivasubramaniam ACM Distinguished Member (2010)
ACM Senior Member (2009)
Peter James Stuckey ACM Distinguished Member (2009)
Mateo Valero ACM Distinguished Service Award (2012)
ACM-IEEE CS Eckert-Mauchly Award (2007)
Robert A. Walker Outstanding Contribution to ACM Award (2007)
ACM Distinguished Member (2006)
David Whalley ACM Distinguished Member (2009)
ACM Senior Member (2009)
Steve Wilton ACM Senior Member (2006)
Zeljko Zilic ACM Senior Member (2009)

First Name Last Name Paper Counts
Francky Catthoor 17
Nikil Dutt 15
Irith Pomeranz 12
Krishnendu Chakrabarty 12
Jason Cong 12
Tingting Hwang 9
Sachin Sapatnekar 9
Partha Chakrabarti 9
Lei He 8
Sheldon Tan 8
Yaowen Chang 8
Frank Vahid 7
Pallab Dasgupta 7
Danny Wong 7
Luca Benini 7
Spyros Tragoudas 6
Taewhan Kim 6
Martin Wong 6
Yunheung Paek 6
Alexandru Nicolau 6
John Hayes 6
Ryan Kastner 6
Massoud Pedram 6
Radu Marculescu 6
Sudhakar Reddy 6
Igor Markov 6
Evangeline Young 5
Ali Dasdan 5
Sharad Malik 5
Kiyoung Choi 5
Bhargab Bhattacharya 5
Kaushik Roy 5
Mahmut Kandemir 5
Umit Ogras 5
Jenqkuen Lee 5
Rajeev Kumar 5
Aviral Shrivastava 5
Giovanni De Micheli 5
Andrew Kahng 5
Chengkok Koh 5
Tony Givargis 5
Nagarajan Ranganathan 5
Roman Lysecky 5
Chungkuan Cheng 5
Kwangting Cheng 4
Rajesh Gupta 4
Zijiang Yang 4
Sunil Khatri 4
El Aboulhamid 4
Jingyang Jou 4
Aarti Gupta 4
Sule Ozev 4
Xiaobosharon Hu 4
Pinghung Yuh 4
Shihhsu Huang 4
Peter Petrov 4
Iris Jiang 4
Alex Jones 4
Hungming Chen 4
Sunyuan Hsieh 4
Hans Wunderlich 4
Chang Liu 4
Jintai Yan 4
Allen Wu 4
Naehyuck Chang 4
Preeti Panda 4
Miodrag Potkonjak 4
Jongeun Lee 4
Dinesh Mehta 4
Franco Fummi 4
Paulo Flores 4
Hai Zhou 4
Dirk Stroobandt 4
Krishnendu Chakrabarty 3
Waikei Mak 3
Seda Memik 3
Henk Corporaal 3
Dimitrios Kagaris 3
Praveen Raghavan 3
Karel Bruneel 3
Soonhoi Ha 3
Ramesh Karri 3
Valeria Bertacco 3
Yuanhao Chang 3
Viktor Prasanna 3
Yuan Xie 3
Diana Marculescu 3
Paolo Prinetto 3
Paoann Hsiung 3
Sreejit Chakravarty 3
Wen Jone 3
Guangming Wu 3
Axel Jantsch 3
Sisira Panda 3
Zoran Salcic 3
Dipankar Das 3
Prabhat Mishra 3
Masanori Kurimoto 3
Guy Gogniat 3
Yuchin Hsu 3
Xiaoyu Song 3
Yunsi Fei 3
Paul Gratz 3
Ozcan Ozturk 3
Janet Roveda 3
Arnout Vandecappelle 3
Chenjie Yu 3
Peter Cheung 3
Youngsoo Shin 3
Shiyu Huang 3
Karem Sakallah 3
Chungwen Huang 3
Juan Maestro 3
Mehdi Tahoori 3
Tsungyi Ho 3
Massimo Poncino 3
Fadi Kurdahi 3
Partha Roop 3
Alberto Sangiovanni-Vincentelli 3
Zonghua Gu 3
Seongnam Kwon 3
Gianpiero Cabodi 3
Soheil Ghiasi 3
Sarma Vrudhula 3
Kurt Keutzer 3
Azadeh Davoodi 3
Thambipillai Srikanthan 3
Pai Chou 3
Martin Palkovič 3
Pedro Reviriego 3
Yowtyng Nieh 3
Daniel Gajski 3
Xiangrong Zhou 3
Madhu Mutyam 3
David Atienza 3
Majid Sarrafzadeh 3
Janak Patel 3
Per Kjeldsberg 3
José Monteiro 3
Chialin Yang 3
Chiuwing Sham 3
Costas Goutis 3
Dong Xiang 3
Yinhe Han 3
Edwin Sha 3
Baris Taskin 3
Nicholas Zamora 3
Saojie Chen 3
Elizabeth Rudnick 3
Ankur Srivastava 3
Enrico Macii 3
Hai Wang 3
Shuvra Bhattacharyya 3
Priyank Kalla 3
Yiping You 3
Twan Basten 3
David Pan 3
Hao Yu 3
George Constantinides 3
Peng Li 3
Shihchieh Chang 3
Xianlong Hong 3
Greg Stitt 3
Li Wang 3
Chakkuen Wong 3
Michael Kochte 2
Erik Marinissen 2
Genggeng Liu 2
Wenzhong Guo 2
Mary Irwin 2
Anna Bernasconi 2
Meeta Srivastav 2
Bart Mesman 2
Muhammet Ozdal 2
Shenchih Tung 2
Dawei Chang 2
Mario López 2
Arcot Sowmya 2
Rajdeep Mukhopadhyay 2
Chung Tsao 2
Peichen Pan 2
Murali Jayapala 2
Javed Absar 2
Lei Li 2
Krzysztof Kuchcinski 2
Yvon Savaria 2
Xin Yuan 2
Peiwen Luo 2
Peng Li 2
Shmuel Wimer 2
Rafal Baranowski 2
Bin Liu 2
Valentina Ciriani 2
Kaihui Chang 2
Pochun Huang 2
José Güntzel 2
Bocheng Lai 2
Roberto Passerone 2
Luciano Lavagno 2
Min Xu 2
Michel Auguin 2
Freek Verbeek 2
Sungjoo Yoo 2
Sunggu Lee 2
Poyuan Chen 2
Abhijit Jas 2
Junji Sakai 2
Sungmo Kang 2
Junjuan Xu 2
Melvin Breuer 2
Marco Murciano 2
Xiaoping Hu 2
Manfred Glesner 2
Magdy Abadir 2
Jim Holt 2
Adnan Aziz 2
Saraju Mohanty 2
Tajana Rosing 2
Željko Žilić 2
Chunjason Xue 2
Michael Riepe 2
Stefano Quer 2
Shantanu Dutt 2
Ranga Vemuri 2
Mohammad Tehranipoor 2
Luiz Dos Santos 2
Mehrdad Nourani 2
Kai Zhu 2
ChengHsing Yang 2
Nur Touba 2
Hyesoon Kim 2
Paul Bogdan 2
Elaheh Bozorgzadeh 2
Hongbing Fan 2
Matthew Guthaus 2
Gustavo Wilke 2
Julien Schmaltz 2
Qing Duan 2
Zili Shao 2
Doosan Cho 2
Vinícius Livramento 2
Jingyang Jou 2
Francesco Poletti 2
Miguel Miranda 2
Marlin Mickle 2
Vivek Sarin 2
Ali Afzali-kusha 2
Hiroaki Inoue 2
Kanupriya Gulati 2
Luís Silveira 2
Yiyu Liu 2
Deming Chen 2
José Mendías 2
Ronald Graham 2
M Balakrishnan 2
Stan Liao 2
Mike Lee 2
B Rau 2
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Jun Yang 2
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Angeliki Kritikakou 2
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Jörg Henkel 2
Swarup Bhunia 2
Susmita Sur-Kolay 2
Paul Thadikaran 2
Guangyu Chen 2
Marc Boulé 2
Chienchih Huang 2
Chinlong Wey 2
Jwu Chen 2
Younlong Lin 2
C Shi 2
Yiyu Shi 2
Arnab Roy 2
Laungterng Wang 2
Xing Huang 2
Guihai Yan 2
Hui Liu 2
Ricardo Reis 2
Radu Marculescu 2
Siddharth Garg 2
Nicola Bombieri 2
Jiping Liu 2
Puneet Gupta 2
Jürgen Teich 2
Jos Huisken 2
Chiaming Chang 2
Donald Thomas 2
Hsinhung Chen 2
Ronald Blanton 2
Ozgur Sinanoglu 2
S Ramesh 2
Soumendu Bhattacharya 1
Min Xie 1
Nizar Dahir 1
Terrence Mak 1
Jianhua Li 1
Liang Shi 1
Mitchell Thornton 1
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Alan Su 1
Mario Leung 1
Ryan Rakib 1
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Yu Cao 1
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Song Liu 1
Ge Yu 1
Javier Resano 1
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Laurence Pierre 1
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Gokul Kandiraju 1
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Cong Xu 1
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Seongseok Seo 1
Rafael Moreno 1
Martin Lukasiewycz 1
Philipp Mundhenk 1
Jingweijia Tan 1
Daler Rakhmatov 1
Mirko Loghi 1
Vijay D'Silva 1
Sri Parameswaran 1
Younghwan Park 1
Kazuhisa Ishizaka 1
Xrysovalantis Kavousianos 1
Subhas Nandy 1
Joanna Ho 1
Richard Wong 1
Jos Hulzink 1
Arthur Yeh 1
Avi Ziv 1
Ruibing Lu 1
Sezer Gören 1
F Ferguson 1
Dian Zhou 1
John Emmert 1
Jinian Bian 1
Haikun Zhu 1
Gang Chen 1
Werner Geurts 1
Johan Van Praet 1
Haruyuki Ohkuma 1
Eduardo Pacheco 1
Hiroaki Suzuki 1
Tadao Yamanaka 1
Hamid Mahmoodi 1
Alex Kondratyev 1
Lihua Yue 1
Zhifang Li 1
Chengjuei Yu 1
YiHsin Wu 1
Etem Deniz 1
Kazutoshi Wakabayashi 1
Xuchu Hu 1
Chiennan Liu 1
Chiachun Tsai 1
J Ramanujam 1
Dipankar Sarkar 1
Ted Szymanski 1
Weifeng He 1
Juan Clemente 1
Kuolin Peng 1
Denis Flandre 1
Steven Nowick 1
James Geraci 1
Saraju Mohanty 1
Priyank Gupta 1
Seetal Potluri 1
A Trinadh 1
Renyuan Zhang 1
Gary Tressler 1
Éric Rutten 1
Sebastien Guillet 1
Jean Diguet 1
Hyungjun Kim 1
Arseniy Vitkovskiy 1
Hamid Sarbazi-Azad 1
Changho Choi 1
Brentbyunghoon Kang 1
Steffen Peter 1
Zainalabedin Navabi 1
David Berner 1
Calin Ciordas 1
Heinrich Meyr 1
Stefan Pees 1
Hui Huang 1
Giuseppe Mangioni 1
Luc Bianco 1
Miron Abramovici 1
Pradip Jha 1
Ingrid Verbauwhede 1
Robert Rinker 1
Ugur Sezer 1
Chingyu Chin 1
Chunkai Wang 1
Dejun Mu 1
Mohit Tiwari 1
Xueliang Li 1
Bren Mochocki 1
Weiyu Tang 1
Pejman Lotfi-Kamran 1
Mohammad Hosseinabady 1
Jingwei Lu 1
Chulhong Park 1
Qinke Wang 1
Sayantan Das 1

Affiliation Paper Counts
Winbond Electronics Corporation 1
Kung Shan Institute of Technology 1
Macau University of Science and Technology 1
DoCoMo Communications Laboratories Europe GmbH 1
Yahoo Inc. 1
Institute for Information Industry Taiwan 1
Synopsys (India) Pvt. Ltd. 1
Mindspeed Technologies 1
FZI Research Computer Science Research Center Karlsruhe 1
Asyst Technologies, Inc. 1
Huawei Technologies Co., Ltd. 1
King Abdullah University of Science and Technology 1
Zenasis Technologies, Inc. 1
Intel Technology India Pvt Ltd. 1
International Institute of Information Technology, Kolkata 1
Barcelona Supercomputing Center 1
Hitachi America, Ltd. 1
STMicroelectronics Ltd - Bristol 1
National Pingtung Institute of Commerce 1
Faraday Technology Corporation 1
Universite de Lyon 1
Intel Development Center, Israel 1
Toshiba America Research, Inc 1
Universite de Strasbourg 1
National Institute of Technology, Durgapur 1
Global Unichip 1
North China Electric Power University 1
Russian Academy of Sciences 1
Bahcesehir University 1
Catholic University of Pelotas 1
Microsoft Research 1
University of Potsdam 1
Beijing University of Chemical Technology 1
University of Virginia 1
Indian Institute of Technology, Kanpur 1
University of New Orleans 1
National Chi Nan University 1
Chongqing University 1
Ecole Centrale Marseille 1
National Taiwan Ocean University 1
Missouri University of Science and Technology 1
University of Maryland, Baltimore County 1
The University of North Carolina at Chapel Hill 1
Northrop Grumman corporation 1
Jundi Shapur University of Dezful 1
Rensselaer Polytechnic Institute 1
Valparaiso University 1
University of Udine 1
Clarkson University 1
University of Nebraska - Lincoln 1
Royal Military College of Canada 1
Nokia 1
School of Higher Technology - University of Quebec 1
San Francisco State University 1
Oracle Corporation 1
NXP Semiconductors 1
National Ilan University Taiwan 1
St. Louis University 1
Siemens AG 1
Daegu University 1
Wuhan University 1
Karlsruhe Institute of Technology, Campus South 1
Kent State University 1
Texas State University-San Marcos 1
Rutgers University 1
Nortel Networks 1
Institute of Computing Technology Chinese Academy of Sciences 1
Curtin University of Technology, Perth 1
Indian Institute of Technology Roorkee 1
McMaster University 1
University at Buffalo, State University of New York 1
University of Akron 1
University of Texas System 1
North Dakota State University 1
University of Bridgeport 1
Miami University Oxford 1
Griffith University 1
Naval Postgraduate School 1
Concordia University, Montreal 1
Federal University of Santa Maria 1
University of Idaho 1
Gonzaga University 1
Texas Instruments (India) Ltd 1
Lahore University of Management Sciences 1
Hynix Semiconductor Inc. 1
P. A. College of Engineering 1
International Medical Equipment Collaborative 1
Indian Institute of Management Calcutta 1
Macronix International Co 1
Nan-Tai Institute of Technology 1
University of Colorado at Boulder 1
Wilfrid Laurier University 1
Mississippi State University 1
Florida State University 1
France Telecom 1
University of Texas at San Antonio 1
Universite de Bretagne-Sud 1
China National Petroleum Corporation 1
University of Ioannina 1
Fu Jen Catholic University 1
Centro de Investigaciones Energeticas, Medioambientales y Tecnologicas 1
Ecole Normale Superieure de Lyon 1
Google Inc. 1
City University of New York 1
Lawrence Berkeley National Laboratory 1
Thomson, SA 1
Cornell University 1
Commissariat a L'Energie Atomique CEA 1
University of Kansas 1
Colorado State University 1
Silicon Graphics, Inc. 1
Tampere University of Technology 1
University of St. Thomas, Minnesota 1
University of Kaiserslautern 1
Nanjing University of Science and Technology 1
University of Kent 1
Auburn University 1
Oakland University 1
INRIA Rhone-Alpes 1
Qualcomm Incorporated 1
INRIA Institut National de Rechereche en Informatique et en Automatique 1
Kwangwoon University 1
Indian Institute of Technology, Bombay 1
Providence University Taiwan 1
Oxford Brookes University 1
Kettering University 1
University of Southern California, Information Sciences Institute 1
University of Washington 1
University of Washington Seattle 1
North Carolina Agricultural and Technical State University 1
Robert Bosch GmbH 1
University of Trento 1
Chengdu University of Information Technology 1
Washington State University Tri-Cities 1
National Taipei University 1
Michigan Technological University 1
University of New Brunswick 1
The University of North Carolina System 1
Vienna University of Technology 1
University of South Carolina 1
Sogang University 1
Technical University of Dresden 1
Bowling Green State University 1
Advanced Micro Devices, Inc. 1
LSI Corporation 1
Taiwan Semiconductor Manufacturing Company 1
Memorial University of Newfoundland 1
CSIC - Instituto de Investigacion en Inteligencia Artificial 1
Air Force Research Laboratory 1
Boston University 1
State University of Rio Grande do Sul 1
United States Air Force Institute of Technology 1
University of Twente 1
East China Normal University 1
Villanova University 2
Virginia Commonwealth University 2
Polytechnic University - Brooklyn 2
Hefei University of Technology 2
Illinois Institute of Technology 2
Vanderbilt University 2
Mentor Graphics Corporation 2
Feng Chia University 2
University of Houston 2
Universitat Politecnica de Catalunya 2
CEA LETI 2
Altera Corporation 2
CNRS Centre National de la Recherche Scientifique 2
Hong Kong University of Science and Technology 2
King Fahd University of Petroleum and Minerals 2
Xilinx Inc. 2
Washington University in St. Louis 2
Kyushu University 2
IBM Research 2
National Sun Yat-Sen University Taiwan 2
Japan Advanced Institute of Science and Technology 2
National Taipei University of Technology 2
Beihang University 2
Brno University of Technology 2
University of Cantabria 2
University of Denver 2
University of York 2
Radboud University Nijmegen 2
University of Tubingen 2
Southern Methodist University 2
Wright State University 2
George Mason University 2
Binghamton University State University of New York 2
New York University 2
Technical University of Crete 2
Osaka University 2
Southern Illinois University 2
Open University of the Netherlands 2
University of Ferrara 2
University of Lethbridge 2
University of Southampton 2
University of Tokyo 2
Xidian University 2
Swiss Federal Institute of Technology, Zurich 2
Alcatel-Lucent 2
Stony Brook University 2
Universidad Autonoma de Madrid 2
University of Oxford 2
Institute for Research in IT and Random Systems 2
University of Pisa 2
Lund University 2
National Semiconductor Corporation 2
Columbia University 2
Universite d' Evry Val d'Essonne 2
Infineon Technologies AG 2
Democritus University of Thrace 2
University of Queensland 2
Michigan State University 2
American University of Beirut 2
Cyprus University of Technology 2
National Key Laboratory for Parallel and Distributed Processing 2
Realtek Semiconductor Corp. 2
Avant Corporation 2
New York University Abu Dhabi 2
Case Western Reserve University 3
Catholic University of Louvain 3
Electronics Telecommunication Research Institute 3
University of Victoria 3
University of Arkansas - Fayetteville 3
Korea University 3
University of Electronic Science and Technology of China 3
Bogazici University 3
Delft University of Technology 3
Kitakyushu University 3
The University of Hong Kong 3
University of Catania 3
University of Dublin, Trinity College 3
Bilkent University 3
RWTH Aachen University 3
Universite de Bretagne Occidentale 3
Hewlett-Packard 3
Tunghai University 3
Portland State University 3
Hanyang University 3
University of Brasilia 3
University of Melbourne 3
Cisco Systems 3
Budapest University of Technology and Economics 3
University of Milan 3
University of Oklahoma 3
University of California System 3
Northeastern University China 3
Hunan University 3
University of Seville 3
University of Cyprus 3
NVIDIA 3
Sunchon National University 4
National Technical University of Athens 4
TIMA Laboratoire 4
Northwestern Polytechnical University China 4
University College Dublin 4
Motorola Austin 4
Louisiana State University 4
Chung Hua University 4
Renesas Technology Corporation 4
City University of Hong Kong 4
Peking University 4
Nanhua University Taiwan 4
Canakkale 18th March University 4
Politecnico di Milano 4
Motorola 4
University of Cincinnati 4
Microsoft 4
IBM Austin Research Laboratory 4
Syracuse University 4
Universite de Rennes 1 4
Pohang University of Science and Technology 4
University of Dortmund 4
Laboratoire des Sciences et Techniques de l'Information, de la Communication et de la Connaissance 4
Western Michigan University 5
Royal Institute of Technology 5
University of Calgary 5
Instituto Superior Tecnico 5
Rice University 5
Technical University of Darmstadt 5
Norwegian University of Science and Technology 5
Texas Instruments 5
University of Tennessee Space Institute 5
Philips Research 5
National University of Singapore 5
University of Bristol 5
University of North Texas 5
Agilent Technologies 5
Swiss Federal Institute of Technology, Lausanne 5
University of New South Wales 5
Technical University of Madrid 5
IBM Zurich Research Laboratory 5
Kyushu Institute of Technology 5
Indian Institute of Technology, Delhi 5
Nanjing University 5
Fujitsu America, Inc. 5
Universite Grenoble Alpes 5
Instituto de Engenharia de Sistemas e Computadores Investigacao e Desenvolvimento em Lisboa 6
Zhejiang University 6
North Carolina State University 6
University of Illinois 6
Nanyang Technological University 6
Fudan University 6
Brown University 6
University of California, Davis 6
Holst Centre 6
University of Connecticut 6
Industrial Technology Research Institute of Taiwan 6
STMicroelectronics 6
Shanghai Jiaotong University 6
Indian Institute of Technology, Madras 6
National Taiwan University of Science and Technology 6
University of Bologna 6
Northeastern University 6
University of Verona 6
Universite Nice Sophia Antipolis 6
Magma Design Automation, Inc. 6
Nebrija University 6
Universidade de Lisboa 6
University of Minnesota System 7
Linkoping University 7
HP Labs 7
University of Florida 7
IBM Thomas J. Watson Research Center 7
National Chung Hsing University 7
Polytechnic School of Montreal 7
Technical University of Munich 7
Massachusetts Institute of Technology 7
Technion - Israel Institute of Technology 7
University of California, Santa Cruz 7
State University of Campinas 7
Utah State University 7
University of Wisconsin Madison 7
McGill University 8
Iowa State University 8
Northwestern University 8
Federal University of Santa Catarina 8
University of Science and Technology of China 8
Indian Statistical Institute, Kolkata 8
University of Utah 8
Broadcom Corporation 8
Southern Illinois University at Carbondale 8
Karlsruhe Institute of Technology 8
Ulsan National Institute of Science and Technology 8
University of Michigan 9
University of Auckland 9
University of Bonn 9
University of Montreal 9
Stanford University 9
University of Waterloo 9
Drexel University 9
Fuzhou University 9
Freescale Semiconductor 9
National Central University Taiwan 9
University of Freiburg 9
University of Illinois at Chicago 9
The University of British Columbia 10
Yuan Ze University 10
University of Stuttgart 10
NEC Laboratories America, Inc. 10
University of Notre Dame 10
University of Iowa 10
National University of Defense Technology China 10
Sharif University of Technology 10
University of Minnesota Twin Cities 10
Chung Yuan Christian University 10
NEC Corporation 10
Princeton University 11
University of Massachusetts Amherst 11
Imperial College London 11
University of Tehran 11
Samsung Electronics 12
Federal University of Rio Grande do Sul 12
Hong Kong Polytechnic University 12
Academia Sinica Taiwan 12
Korea Advanced Institute of Science & Technology 12
University of Texas at Dallas 13
University of Patras 13
University of South Florida Tampa 14
Catholic University of Leuven 14
Complutense University of Madrid 14
National Chung Cheng University 15
University of California, Berkeley 15
University of Southern California 15
University of Erlangen-Nuremberg 16
Chinese Academy of Sciences 16
University of Arizona 17
Pennsylvania State University 18
IBM 18
Cadence Design Systems 18
Ghent University 18
Arizona State University 19
Virginia Tech 19
Georgia Institute of Technology 20
University of Illinois at Urbana-Champaign 21
University of California, Santa Barbara 21
National Cheng Kung University 24
Tsinghua University 24
Chinese University of Hong Kong 26
University of Maryland 26
Eindhoven University of Technology 26
Synopsys Incorporated 28
Duke University 30
University of Texas at Austin 30
Intel Corporation 30
Interuniversity Micro-Electronics Center at Leuven 31
Purdue University 32
University Michigan Ann Arbor 32
Polytechnic Institute of Turin 34
University of Pittsburgh 36
Carnegie Mellon University 37
University of California, Riverside 39
National Taiwan University 40
University of California, San Diego 43
National Chiao Tung University Taiwan 44
Texas A and M University 44
Indian Institute of Technology, Kharagpur 45
University of California, Irvine 63
Seoul National University 64
National Tsing Hua University 64
University of California, Los Angeles 65

ACM Transactions on Design Automation of Electronic Systems (TODAES)
Archive


2016
Volume 21 Issue 4, May 2016  Issue-in-Progress
Volume 21 Issue 3, May 2016  Issue-in-Progress
Volume 21 Issue 2, January 2016

2015
Volume 21 Issue 1, November 2015
Volume 20 Issue 4, September 2015 Special Issue on Reliable, Resilient, and Robust Design of Circuits and Systems
Volume 20 Issue 3, June 2015
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2014
Volume 20 Issue 1, November 2014
Volume 19 Issue 4, August 2014
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Volume 19 Issue 2, March 2014

2013
Volume 19 Issue 1, December 2013
Volume 18 Issue 4, October 2013 Special Section on Networks on Chip: Architecture, Tools, and Methodologies
Volume 18 Issue 3, July 2013
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Volume 18 Issue 1, January 2013 Special section on adaptive power management for energy and temperature-aware computing systems

2012
Volume 17 Issue 4, October 2012
Volume 17 Issue 3, June 2012 Special section on verification challenges in the concurrent world
Volume 17 Issue 2, April 2012
Volume 17 Issue 1, January 2012

2011
Volume 16 Issue 4, October 2011
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2010
Volume 16 Issue 1, November 2010
Volume 15 Issue 4, September 2010
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2009
Volume 15 Issue 1, December 2009
Volume 14 Issue 4, August 2009
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Volume 14 Issue 1, January 2009

2008
Volume 13 Issue 4, September 2008
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Volume 13 Issue 1, January 2008

2007
Volume 12 Issue 4, September 2007
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Volume 12 Issue 1, January 2007

2006
Volume 11 Issue 4, October 2006
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Volume 11 Issue 2, April 2006
Volume 11 Issue 1, January 2006

2005
Volume 10 Issue 4, October 2005
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Volume 10 Issue 2, April 2005
Volume 10 Issue 1, January 2005

2004
Volume 9 Issue 4, October 2004
Volume 9 Issue 3, July 2004
Volume 9 Issue 2, April 2004
Volume 9 Issue 1, January 2004

2003
Volume 8 Issue 4, October 2003
Volume 8 Issue 3, July 2003
Volume 8 Issue 2, April 2003
Volume 8 Issue 1, January 2003

2002
Volume 7 Issue 4, October 2002
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Volume 7 Issue 2, April 2002
Volume 7 Issue 1, January 2002

2001
Volume 6 Issue 4, October 2001
Volume 6 Issue 3, July 2001
Volume 6 Issue 2, April 2001
Volume 6 Issue 1, Jan. 2001

2000
Volume 5 Issue 4, Oct. 2000
Volume 5 Issue 3, July 2000
Volume 5 Issue 2, April 2000
Volume 5 Issue 1, Jan. 2000

1999
Volume 4 Issue 4, Oct. 1999
Volume 4 Issue 3, July 1999
Volume 4 Issue 2, April 1999
Volume 4 Issue 1, Jan. 1999

1998
Volume 3 Issue 4, Oct. 1998
Volume 3 Issue 3, July 1998
Volume 3 Issue 2, April 1998
Volume 3 Issue 1, Jan. 1998

1997
Volume 2 Issue 4, Oct. 1997
Volume 2 Issue 3, July 1997
Volume 2 Issue 2, April 1997
Volume 2 Issue 1, Jan. 1997

1996
Volume 1 Issue 4, Oct. 1996
Volume 1 Issue 3, July 1996
Volume 1 Issue 2, April 1996
Volume 1 Issue 1, Jan. 1996
 
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