Research Research Our research exploits the capabilities of programmable hardware devices such as FPGAs tightly coupling optimised accelerator architectures with high throughput interfaces to host computers, external memory, and the network. This elevates these accelerators to primary components, thereby enhancing their impact on overall system performance. We consider three dimensions of research that are closely related. Accelerator Virtualisation Enable rapid integration and sharing, with data from network, memory, storage Conduit to application experts leveraging FPGA acceleration more scalably and easily
Join us Info Multiple Postdoc Openings We currently have multiple postdoc openings. As a postdoc, KAUST offers you a highly enriching environment in which to further develop your research, whether in pursuit of a future academic position, or to gain deeper technical understanding for a job in industry. Postdocs enjoy highly competitive salaries and free accommodation and healthcare on a world class campus with ample recreational facilities and a private beach. You will live and work among a highly diverse population of high achievers, and interact with world-leading faculty across a range of disciplines
Publications Publications Below you will find a list of publications by the Accelerated Connected Computing Lab at KAUST (and its predecessors) and links to download them, as maintained in this paper repository. Note that they are provided here to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. You can also view Prof. Fahmy’s Google Scholar Profile, DBLP Profile, and ORCID Profile, and publications on the Warwick repository, WRAP and KAUST Repository. Peer-Reviewed Conference and Journal Papers Automatic Code-Generation
Accelerated Connected Computing Lab Front Page Professor Suhaib Fahmy leads ACCL Accelerated Connected Computing Lab The Accelerated Connected Computing Lab at KAUST focuses on hardware acceleration and connected computing, exploring how innovation at this intersection can enable more efficient, performant, and secure systems. We work a lot with FPGAs as a platform for exploring the interplay between connectivity and custom hardware designs. We have access to excellent equipment and facilities, including a variety of accelerator boards, Smart NICs, programmable switches, and powerful servers and workstations. Meet the Accelerati Meet the