Search

Your search keyword '"Talarico, Claudio"' showing total 76 results
Start Over Author "Talarico, Claudio"
76 results on '"Talarico, Claudio"'

1. Deep Inverse Design for High-Level Synthesis

Author

Chang, Ping, Adegbija, Tosiron, Liao, Yuchao, Talarico, Claudio, Li, Ao, and Roveda, Janet

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

High-level synthesis (HLS) has significantly advanced the automation of digital circuits design, yet the need for expertise and time in pragma tuning remains challenging. Existing solutions for the design space exploration (DSE) adopt either heuristic methods, lacking essential information for further optimization potential, or predictive models, missing sufficient generalization due to the time-consuming nature of HLS and the exponential growth of the design space. To address these challenges, we propose Deep Inverse Design for HLS (DID4HLS), a novel approach that integrates graph neural networks and generative models. DID4HLS iteratively optimizes hardware designs aimed at compute-intensive algorithms by learning conditional distributions of design features from post-HLS data. Compared to four state-of-the-art DSE baselines, our method achieved an average improvement of 42.5% on average distance to reference set (ADRS) compared to the best-performing baselines across six benchmarks, while demonstrating high robustness and efficiency.

Published
2024

3. A Probabilistic Collocation Method Based Statistical Gate Delay Model Considering Process Variations and Multiple Input Switching

Author

Kumar, Y. Satish, Li, Jun, Talarico, Claudio, and Wang, Janet

Subjects
Computer Science - Hardware Architecture
Abstract

Since the advent of new nanotechnologies, the variability of gate delay due to process variations has become a major concern. This paper proposes a new gate delay model that includes impact from both process variations and multiple input switching. The proposed model uses orthogonal polynomial based probabilistic collocation method to construct a delay analytical equation from circuit timing performance. From the experimental results, our approach has less that 0.2% error on the mean delay of gates and less than 3% error on the standard deviation., Comment: Submitted on behalf of EDAA (http://www.edaa.com/)

Published
2007
Full Text
View/download PDF

14. Effects on phased arrays radiation pattern due to phase error distribution in the phase shifter operation

Author

Coviello Giuseppe, Avitabile Gianfranco, Piccinni Giovanni, D’Amato Giulio, and Talarico Claudio

Subjects
Engineering (General). Civil engineering (General), TA1-2040
Abstract

A comprehensive study on the role of the phase errors distribution on the performances of the phased array systems has been produced. The analysis is brought out using a complete and behavioural model for radiation-pattern characteristics. The study has shown how the phase errors distribution actually affects the performances demonstrating that the rms phase error is a valuable figure of merit of phased array systems but it is not sufficient to completely describe the behaviour of a real system. The paper demonstrates that the antennas array beam shape is depending by the actual error phase distribution and that a good phase shifter has to have the phase errors as constant as possible and with a low rms value.

Published
2016
Full Text
View/download PDF

15. Hardware/software partitioning using bayesian belief networks

Author

Olson, John T., Rozenblit, Jerzy W., Talarico, Claudio, and Jacak, Witold

Subjects
System design, System design -- Analysis, Systems analysis -- Analysis, Bayesian statistical decision theory
Abstract

In heterogeneous system design, partitioning of the functional specifications into hardware (HW) and software (SW) components is an important procedure. Often, an HW platform is chosen, and the SW is mapped onto the existing partial solution, or the actual partitioning is performed in an ad hoc manner. The partitioning approach presented here is novel in that it uses Bayesian belief networks (BBNs) to categorize functional components into HW and SW classifications. The BBN's ability to propagate evidence permits the effects of a classification decision that is made about one function to be felt throughout the entire network. In addition, because BBNs have a belief of hypotheses as their core, a quantitative measurement as to the correctness of a partitioning decision is achieved. A methodology for automatically generating the qualitative structural portion of BBN and the quantitative link matrices is given. A case study of a programmable thermostat is developed to illustrate the BBN approach. The outcomes of the partitioning process are discussed and placed in a larger design context, which is called model-based codesign. Index Terms--Hardware/software partitioning, heterogenous system design, model-based codesign.

Published
2007

34. MOTION VECTOR ROUTING PROTOCOL: A POSITION BASED ROUTING PROTOCOL FOR MOBILE AD HOC NETWORKS

Author

McNeill, Kevin M., Zeigler, Bernard P., Talarico, Claudio, Zhao, Yun, McNeill, Kevin M., Zeigler, Bernard P., Talarico, Claudio, and Zhao, Yun

Abstract

A Mobile Ad Hoc Network (MANET) consists of mobile nodes, equipped with wireless communications devices, which form a communications network without fixed network infrastructure or topology. The MANET is typically characterized by: limited bandwidth; limited radio range; high mobility; and susceptibility to impairments that degrade the signal to noise ratio and bit error rates. These characteristics pose challenges to the MANET routing protocols. In addition to these characteristics, we have found that the mobility pattern of the nodes also has significant impact on the MANET routing protocols. In order to achieve improved efficiency for these networks, we propose the Motion Vector Routing (MoVeR) protocol. MoVeR is a position based routing protocol for MANET communications that uses the motion information of mobile nodes to determine how to route the packets. MoVeR predicts the future positions of mobile nodes, based on motion vectors containing current and previous position, and velocity information. The protocol is designed for applications in which we expect that nodes will have access to a position service. We also assume the availability of a location service by which the sender can obtain an initial estimate of the location of the destination. Nodes using the MoVeR protocol distribute the routing information to neighbors in one-hop transmission range. Given the position information, MoVeR can potentially employ one of several forwarding strategies. The implementation used for this research employs a greedy algorithm forwarding the packet to the neighbor such that the neighbor is closer to the destination in the near future. Since the forwarding strategy could be subject to local minima problems, the algorithm also includes a recovery mode which is activated when this problem has occurred. In the recovery mode, the protocol traverses the planarized graph to the destination. MoVeR is a localized routing protocol and therefore exhibits reduced control overhead c

Published
2005

Catalog

Books, media, physical & digital resources
See catalog results