VAST lab at UCLA
The VAST lab at UCLA investigates cutting-edge research topics at the intersection of VLSI technologies, design automation, architecture and compiler optimization at multiple scales, from micro-architecture building blocks, to heterogeneous compute nodes, and scalable data centers. Current focuses include architecture and design automation for emerging technologies, customizable domain-specific computing with applications to multiple domains, such as imaging processing, bioinformatics, data mining and machine learning.
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Latest News
Congratulations to Prof. Jason Cong for receiving the 2023 EDAA Achievement Award, which is given to an individual each year who made outstanding contributions to state of the art in electronic design, automation and testing of electronic systems in their life. Please see EDAA’s Press Release...
The VAST lab is pleased to be part of the Center for Processing with Intelligent Storage and Memory (PRISM) under the JUMP 2.0 program led by UC San Diego in collaboration from Professors ...
Congratulations to Prof. Jason Cong and his former PhD students Guojie Luo and Bingjun Xiao and former postdoc Kelly Tsota for receiving the 10-Year Retrospective Most Influential Paper Award from the 28th Asia and South Pacific Design Automation Conference (ASP-DAC'2023) for their work "...
Latest Publications
Our Projects
Domain-specific accelerators (DSAs) have shown to offer significant performance and energy efficiency over general-purpose CPUs to meet the ever increasing performance needs. However, it is well-known that the DSAs in field-programmable gate-arrays (FPGAs) or application specific integrated...
Description:
- Compilation in quantum computing (QC)
- Optimality study - how far are we from optimal?
- Optimal quantum layout synthesis
- Exploring architecture design with layout synthesis
- Layout synthesis for reconfigruable QC...
Heterogeneous computing with extensive use of accelerators, such as FPGAs and GPUs, has shown great promise to bring in orders of magnitude improvement in computing efficiency for a wide range of applications. The latest advances in industry have led to highly integrated heterogeneous hardware...
Direction 1: Real-Time Neural Signal Processing for Closed-Loop Neurofeedback Applications.
The miniaturized fluorescence microscope (Miniscope) and the tetrodes assembly are emerging techniques in observing the activity of a large population of neuros in vivo. It opens up new research...
In the Big Data era, the volume of data is exploding, putting forward a new challenge to existing computer systems. Traditionally, the computer system is designed to be computing-centric, in which the data from IO devices is transferred and then processed by the CPU. However, this data movement...
In this project, we explore efficient algorithms and architectures for state-of-the-art deep learning based applications. In the first set of works, we are exploring learning algorithms and acceleration techniques on graph learning algorithms. At their core, they deal with sparse...
In the era of big data, many applications present siginificant compuational challenges. For example, in the field of bio-infomatics, the computation demand for personalized cancer treatment is prohibitively high for the general-purpose computing technologies, as tumor heterogeneity...
To meet ever-increasing computing needs and overcome power density limitations, the computing industry has entered theera of parallelization, with tens to hundreds of computing cores integrated into a single...
Software Releases
Layout synthesis for reconfigurable atom arrays. https://github.com/UCLA-VAST/OLSQ/tree/RAA
Open-source repository: https://github.com/jshinnerl/pekoMS_2006_book
The generating algorithm is described in https://doi.org/10.1007/978-0-387-68739-1_2