Search

Your search keyword '"Lavagno, Luciano"' showing total 685 results
Start Over Author "Lavagno, Luciano"

Refine your results

more »

more »

more »

more »
685 results on '"Lavagno, Luciano"'

1. A DSP shared is a DSP earned: HLS Task-Level Multi-Pumping for High-Performance Low-Resource Designs

Author

Brignone, Giovanni, Lazarescu, Mihai T., and Lavagno, Luciano

Subjects
Computer Science - Hardware Architecture
Abstract

High-level synthesis (HLS) enhances digital hardware design productivity through a high abstraction level. Even if the HLS abstraction prevents fine-grained manual register-transfer level (RTL) optimizations, it also enables automatable optimizations that would be unfeasible or hard to automate at RTL. Specifically, we propose a task-level multi-pumping methodology to reduce resource utilization, particularly digital signal processors (DSPs), while preserving the throughput of HLS kernels modeled as dataflow graphs (DFGs) targeting field-programmable gate arrays. The methodology exploits the HLS resource sharing to automatically insert the logic for reusing the same functional unit for different operations. In addition, it relies on multi-clock DFG s to run the multi-pumped tasks at higher frequencies. The methodology scales the pipeline initiation interval (II) and the clock frequency constraints of resource-intensive tasks by a multi-pumping factor (M). The looser II allows sharing the same resource among M different operations, while the tighter clock frequency preserves the throughput. We verified that our methodology opens a new Pareto front in the throughput and resource space by applying it to open-source HLS designs using state-of-the-art commercial HLS and implementation tools by Xilinx. The multi-pumped designs require up to 40% fewer DSP resources at the same throughput as the original designs optimized for performance (i.e., running at the maximum clock frequency) and achieve up to 50% better throughput using the same DSP s as the original designs optimized for resources with a single clock.

Published
2023
Full Text
View/download PDF

2. Design and Optimization of Residual Neural Network Accelerators for Low-Power FPGAs Using High-Level Synthesis

Author

Minnella, Filippo, Urso, Teodoro, Lazarescu, Mihai T., and Lavagno, Luciano

Subjects
Computer Science - Hardware Architecture, Electrical Engineering and Systems Science - Signal Processing
Abstract

Residual neural networks are widely used in computer vision tasks. They enable the construction of deeper and more accurate models by mitigating the vanishing gradient problem. Their main innovation is the residual block which allows the output of one layer to bypass one or more intermediate layers and be added to the output of a later layer. Their complex structure and the buffering required by the residual block make them difficult to implement on resource-constrained platforms. We present a novel design flow for implementing deep learning models for field programmable gate arrays optimized for ResNets, using a strategy to reduce their buffering overhead to obtain a resource-efficient implementation of the residual layer. Our high-level synthesis (HLS)-based flow encompasses a thorough set of design principles and optimization strategies, exploiting in novel ways standard techniques such as temporal reuse and loop merging to efficiently map ResNet models, and potentially other skip connection-based NN architectures, into FPGA. The models are quantized to 8-bit integers for both weights and activations, 16-bit for biases, and 32-bit for accumulations. The experimental results are obtained on the CIFAR-10 dataset using ResNet8 and ResNet20 implemented with Xilinx FPGAs using HLS on the Ultra96-V2 and Kria KV260 boards. Compared to the state-of-the-art on the Kria KV260 board, our ResNet20 implementation achieves 2.88X speedup with 0.5% higher accuracy of 91.3%, while ResNet8 accuracy improves by 2.8% to 88.7%. The throughputs of ResNet8 and ResNet20 are 12971 FPS and 3254 FPS on the Ultra96 board, and 30153 FPS and 7601 FPS on the Kria KV26, respectively. They Pareto-dominate state-of-the-art solutions concerning accuracy, throughput, and energy.

Published
2023

3. To Spike or Not To Spike: A Digital Hardware Perspective on Deep Learning Acceleration

Author

Ottati, Fabrizio, Gao, Chang, Chen, Qinyu, Brignone, Giovanni, Casu, Mario R., Eshraghian, Jason K., and Lavagno, Luciano

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Artificial Intelligence, Computer Science - Hardware Architecture, Computer Science - Machine Learning
Abstract

As deep learning models scale, they become increasingly competitive from domains spanning from computer vision to natural language processing; however, this happens at the expense of efficiency since they require increasingly more memory and computing power. The power efficiency of the biological brain outperforms any large-scale deep learning ( DL ) model; thus, neuromorphic computing tries to mimic the brain operations, such as spike-based information processing, to improve the efficiency of DL models. Despite the benefits of the brain, such as efficient information transmission, dense neuronal interconnects, and the co-location of computation and memory, the available biological substrate has severely constrained the evolution of biological brains. Electronic hardware does not have the same constraints; therefore, while modeling spiking neural networks ( SNNs) might uncover one piece of the puzzle, the design of efficient hardware backends for SNN s needs further investigation, potentially taking inspiration from the available work done on the artificial neural networks ( ANNs) side. As such, when is it wise to look at the brain while designing new hardware, and when should it be ignored? To answer this question, we quantitatively compare the digital hardware acceleration techniques and platforms of ANNs and SNN s. As a result, we provide the following insights: (i) ANNs currently process static data more efficiently, (ii) applications targeting data produced by neuromorphic sensors, such as event-based cameras and silicon cochleas, need more investigation since the behavior of these sensors might naturally fit the SNN paradigm, and (iii) hybrid approaches combining SNN s and ANNs might lead to the best solutions and should be investigated further at the hardware level, accounting for both efficiency and loss optimization., Comment: Fixed error in bio

Published
2023

4. A Survey on Deep Learning Hardware Accelerators for Heterogeneous HPC Platforms

Author

Silvano, Cristina, Ielmini, Daniele, Ferrandi, Fabrizio, Fiorin, Leandro, Curzel, Serena, Benini, Luca, Conti, Francesco, Garofalo, Angelo, Zambelli, Cristian, Calore, Enrico, Schifano, Sebastiano Fabio, Palesi, Maurizio, Ascia, Giuseppe, Patti, Davide, Petra, Nicola, De Caro, Davide, Lavagno, Luciano, Urso, Teodoro, Cardellini, Valeria, Cardarilli, Gian Carlo, Birke, Robert, and Perri, Stefania

Subjects
Computer Science - Hardware Architecture, Computer Science - Emerging Technologies, Computer Science - Machine Learning
Abstract

Recent trends in deep learning (DL) imposed hardware accelerators as the most viable solution for several classes of high-performance computing (HPC) applications such as image classification, computer vision, and speech recognition. This survey summarizes and classifies the most recent advances in designing DL accelerators suitable to reach the performance requirements of HPC applications. In particular, it highlights the most advanced approaches to support deep learning accelerations including not only GPU and TPU-based accelerators but also design-specific hardware accelerators such as FPGA-based and ASIC-based accelerators, Neural Processing Units, open hardware RISC-V-based accelerators and co-processors. The survey also describes accelerators based on emerging memory technologies and computing paradigms, such as 3D-stacked Processor-In-Memory, non-volatile memories (mainly, Resistive RAM and Phase Change Memories) to implement in-memory computing, Neuromorphic Processing Units, and accelerators based on Multi-Chip Modules. Among emerging technologies, we also include some insights into quantum-based accelerators and photonics. To conclude, the survey classifies the most influential architectures and technologies proposed in the last years, with the purpose of offering the reader a comprehensive perspective in the rapidly evolving field of deep learning., Comment: Preprint version of our manuscript submitted to the journal @ ACM CSUR (58 pages including Appendix) on June 22nd, 2023. Major revision submitted on July 12th, 2024

Published
2023

5. Synetgy: Algorithm-hardware Co-design for ConvNet Accelerators on Embedded FPGAs

Author

Yang, Yifan, Huang, Qijing, Wu, Bichen, Zhang, Tianjun, Ma, Liang, Gambardella, Giulio, Blott, Michaela, Lavagno, Luciano, Vissers, Kees, Wawrzynek, John, and Keutzer, Kurt

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Hardware Architecture
Abstract

Using FPGAs to accelerate ConvNets has attracted significant attention in recent years. However, FPGA accelerator design has not leveraged the latest progress of ConvNets. As a result, the key application characteristics such as frames-per-second (FPS) are ignored in favor of simply counting GOPs, and results on accuracy, which is critical to application success, are often not even reported. In this work, we adopt an algorithm-hardware co-design approach to develop a ConvNet accelerator called Synetgy and a novel ConvNet model called DiracDeltaNet$^{\dagger}$. Both the accelerator and ConvNet are tailored to FPGA requirements. DiracDeltaNet, as the name suggests, is a ConvNet with only $1\times 1$ convolutions while spatial convolutions are replaced by more efficient shift operations. DiracDeltaNet achieves competitive accuracy on ImageNet (88.7\% top-5), but with 42$\times$ fewer parameters and 48$\times$ fewer OPs than VGG16. We further quantize DiracDeltaNet's weights to 4-bit and activations to 4-bits, with less than 1\% accuracy loss. These quantizations exploit well the nature of FPGA hardware. In short, DiracDeltaNet's small model size, low computational OP count, low precision and simplified operators allow us to co-design a highly customized computing unit for an FPGA. We implement the computing units for DiracDeltaNet on an Ultra96 SoC system through high-level synthesis. Our accelerator's final top-5 accuracy of 88.1\% on ImageNet, is higher than all the previously reported embedded FPGA accelerators. In addition, the accelerator reaches an inference speed of 66.3 FPS on the ImageNet classification task, surpassing prior works with similar accuracy by at least 11.6$\times$., Comment: Update to the latest results

Published
2018
Full Text
View/download PDF

11. HLS Algorithmic Explorations for HPC Execution on Reconfigurable Hardware - ECOSCALE

Author

Malakonakis, Pavlos, Georgopoulos, Konstantinos, Ioannou, Aggelos, Lavagno, Luciano, Papaefstathiou, Ioannis, Mavroidis, Iakovos, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Voros, Nikolaos, editor, Huebner, Michael, editor, Keramidas, Georgios, editor, Goehringer, Diana, editor, Antonopoulos, Christos, editor, and Diniz, Pedro C., editor

Published
2018
Full Text
View/download PDF

12. A model-based approach for bridging virtual and physical sensor nodes in a hybrid simulation framework.

Author

Mozumdar, Mohammad, Song, Zhen Yu, Lavagno, Luciano, and Sangiovanni-Vincentelli, Alberto L

Subjects
model based design, wireless sensor networks, hardware-in-the-loop simulation, Analytical Chemistry, Distributed Computing, Electrical and Electronic Engineering, Environmental Science and Management, Ecology
Abstract

The Model Based Design (MBD) approach is a popular trend to speed up application development of embedded systems, which uses high-level abstractions to capture functional requirements in an executable manner, and which automates implementation code generation. Wireless Sensor Networks (WSNs) are an emerging very promising application area for embedded systems. However, there is a lack of tools in this area, which would allow an application developer to model a WSN application by using high level abstractions, simulate it mapped to a multi-node scenario for functional analysis, and finally use the refined model to automatically generate code for different WSN platforms. Motivated by this idea, in this paper we present a hybrid simulation framework that not only follows the MBD approach for WSN application development, but also interconnects a simulated sub-network with a physical sub-network and then allows one to co-simulate them, which is also known as Hardware-In-the-Loop (HIL) simulation.

Published
2014

16. Mix & Latch: An optimization flow for high-performance designs with single-clock mixed-polarity latches and flip-flops

Author

Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Universitat Politècnica de Catalunya. ALBCOM - Algorísmia, Bioinformàtica, Complexitat i Mètodes Formals, Minnella, Filippo, Cortadella, Jordi, Casu, Mario R., Lazarescu, Mihai T., Lavagno, Luciano, Universitat Politècnica de Catalunya. Departament de Ciències de la Computació, Universitat Politècnica de Catalunya. ALBCOM - Algorísmia, Bioinformàtica, Complexitat i Mètodes Formals, Minnella, Filippo, Cortadella, Jordi, Casu, Mario R., Lazarescu, Mihai T., and Lavagno, Luciano

Abstract

Flip-flops are the most used sequential elements in synchronous circuits, but designs based on latches can operate at higher frequencies and occupy less area. Techniques to increase the maximum operating frequency of flip-flop based designs, such as time-borrowing, rely on tight hold constraints that are difficult to satisfy using traditional back-end optimization techniques. We propose Mix & Latch, a methodology to increase the operating frequency of synchronous digital circuits using a single clock tree and a mixed distribution of positive- and negative-edge-triggered flops, and positive- and negative-level-sensitive latches. An efficient mathematical model is proposed to optimize the type and location of the sequential elements of the circuit. We ensure that the initial registers are not moved from their initial location, although they may change type, thus allowing the use of equivalence checking and static timing analysis to verify formally the correctness of the transformation. The technique is validated using a 28nm CMOS FDSOI technology, obtaining 1.33X post-layout average operating frequency improvement on a broad set of benchmarks over a standard commercial design flow. Additionally, the circuit area was also reduced by more than 1.19X on average for the same benchmarks, although the overall area reduction is not a goal of the optimization algorithm. To the best of our knowledge, this is the first work that proposes combining mixed-polarity flip-flops and latches to improve the circuit performance., Peer Reviewed, Postprint (published version)

Published
2023

17. A Survey on Design Methodologies for Accelerating Deep Learning on Heterogeneous Architectures

Author

Ferrandi, Fabrizio, Curzel, Serena, Fiorin, Leandro, Ielmini, Daniele, Silvano, Cristina, Conti, Francesco, Burrello, Alessio, Barchi, Francesco, Benini, Luca, Lavagno, Luciano, Urso, Teodoro, Calore, Enrico, Schifano, Sebastiano Fabio, Zambelli, Cristian, Palesi, Maurizio, Ascia, Giuseppe, Russo, Enrico, Petra, Nicola, De Caro, Davide, Di Meo, Gennaro, Cardellini, Valeria, Filippone, Salvatore, Presti, Francesco Lo, Silvestri, Francesco, Palazzari, Paolo, Perri, Stefania, Ferrandi, Fabrizio, Curzel, Serena, Fiorin, Leandro, Ielmini, Daniele, Silvano, Cristina, Conti, Francesco, Burrello, Alessio, Barchi, Francesco, Benini, Luca, Lavagno, Luciano, Urso, Teodoro, Calore, Enrico, Schifano, Sebastiano Fabio, Zambelli, Cristian, Palesi, Maurizio, Ascia, Giuseppe, Russo, Enrico, Petra, Nicola, De Caro, Davide, Di Meo, Gennaro, Cardellini, Valeria, Filippone, Salvatore, Presti, Francesco Lo, Silvestri, Francesco, Palazzari, Paolo, and Perri, Stefania

Abstract

In recent years, the field of Deep Learning has seen many disruptive and impactful advancements. Given the increasing complexity of deep neural networks, the need for efficient hardware accelerators has become more and more pressing to design heterogeneous HPC platforms. The design of Deep Learning accelerators requires a multidisciplinary approach, combining expertise from several areas, spanning from computer architecture to approximate computing, computational models, and machine learning algorithms. Several methodologies and tools have been proposed to design accelerators for Deep Learning, including hardware-software co-design approaches, high-level synthesis methods, specific customized compilers, and methodologies for design space exploration, modeling, and simulation. These methodologies aim to maximize the exploitable parallelism and minimize data movement to achieve high performance and energy efficiency. This survey provides a holistic review of the most influential design methodologies and EDA tools proposed in recent years to implement Deep Learning accelerators, offering the reader a wide perspective in this rapidly evolving field. In particular, this work complements the previous survey proposed by the same authors in [203], which focuses on Deep Learning hardware accelerators for heterogeneous HPC platforms.

Published
2023

21. CUDA-Optimized GPU Acceleration of 3GPP 3D Channel Model Simulations for 5G Network Planning.

Author

Shah, Nasir Ali, Lazarescu, Mihai T., Quasso, Roberto, and Lavagno, Luciano

Subjects
5G networks, FIELD programmable gate arrays, GRAPHICS processing units, MATHEMATICAL optimization
Abstract

The simulation of massive multiple-input multiple-output (MIMO) channel models is becoming increasingly important for testing and validation of fifth-generation new radio (5G NR) wireless networks and beyond. However, simulation performance tends to be limited when modeling a large number of antenna elements combined with a complex and realistic representation of propagation conditions. In this paper, we propose an efficient implementation of a 3rd Generation Partnership Project (3GPP) three-dimensional (3D) channel model, specifically designed for graphics processing unit (GPU) platforms, with the goal of minimizing the computational time required for channel simulation. The channel model is highly parameterized to encompass a wide range of configurations required for real-world optimized 5G NR network deployments. We use several compute unified device architecture (CUDA)-based optimization techniques to exploit the parallelism and memory hierarchy of the GPU. Experimental data show that the developed system achieves an overall speedup of about 240× compared to the original C++ model executed on an Intel processor. Compared to a design previously accelerated on a datacenter-class field programmable gate array (FPGA), the GPU design has a 33.3% higher single-precision performance but a 7.5% higher power consumption. The proposed GPU accelerator can provide fast and accurate channel simulations for 5G NR network planning and optimization. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

24. Overview

Author

Lavagno, Luciano, primary, Martin, Grant E., additional, Scheffer, Louis K., additional, and Markov, Igor L., additional

Published
2017
Full Text
View/download PDF

25. UML and Platform-based Design

Author

Chen, Rong, Sgroi, Marco, Lavagno, Luciano, Martin, Grant, Sangiovanni-Vincentelli, Alberto, Rabaey, Jan, Lavagno, Luciano, editor, Martin, Grant, editor, and Selic, Bran, editor

Published
2003
Full Text
View/download PDF

29. Design Examples

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

30. Verification

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

31. Interface Synthesis and the Real-Time Operating System

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

32. Interfacing to External Hardware and Software

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

33. Synthesis

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

34. Introduction

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

35. Models and Representations

Author

Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, Tabbara, Bassam, Allen, Jonathan, editor, Balarin, Felice, Chiodo, Massimiliano, Giusto, Paolo, Hsieh, Harry, Jurecska, Attila, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sentovich, Ellen, Suzuki, Kei, and Tabbara, Bassam

Published
1997
Full Text
View/download PDF

37. SoftContract: Model-Based Design of Error-Checking Code and Property Monitors

Author

Lavagno, Luciano, Di Natale, Marco, Ferrari, Alberto, Giusto, Paolo, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Jardim Nunes, Nuno, editor, Selic, Bran, editor, Rodrigues da Silva, Alberto, editor, and Toval Alvarez, Ambrosio, editor

Published
2005
Full Text
View/download PDF

39. Previous Work

Author

Lavagno, Luciano, Sangiovanni-Vincentelli, Alberto, Allen, Jonathan, editor, Lavagno, Luciano, and Sangiovanni-Vincentelli, Alberto

Published
1993
Full Text
View/download PDF

41. The Synthesis Methodology

Author

Lavagno, Luciano, Sangiovanni-Vincentelli, Alberto, Allen, Jonathan, editor, Lavagno, Luciano, and Sangiovanni-Vincentelli, Alberto

Published
1993
Full Text
View/download PDF

45. Introduction

Author

Lavagno, Luciano, Sangiovanni-Vincentelli, Alberto, Allen, Jonathan, editor, Lavagno, Luciano, and Sangiovanni-Vincentelli, Alberto

Published
1993
Full Text
View/download PDF

49. Modeling and Designing Heterogeneous Systems

Author

Balarin, Felice, Lavagno, Luciano, Passerone, Claudio, Sangiovanni-Vincentelli, Alberto, Sgroi, Marco, Watanabe, Yosinori, Goos, Gerhard, editor, Hartmanis, Juris, editor, van Leeuwen, Jan, editor, Cortadella, Jordi, editor, Yakovlev, Alex, editor, and Rozenberg, Grzegorz, editor

Published
2002
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results