January 15, 2018
February 16, 2019
2nd Workshop on Accelerator Architecture in Computational Biology and Bioinformatics
in conjunction with HPCA 2019
Washington DC, USA
February 16, 2019
Over the last decade, the advent of high-throughput sequencing techniques brought an exponential growth in biosequence database sizes. With increased throughput demand and popularity of computational biology tools, reducing time-to-solution during computational analysis has become a significant challenge in the path to scientific discovery. Conventional computer architecture is proven to be inefficient for computational biology and bioinformatics tasks. For example, aligning even several hundred DNA or protein sequences using progressive multiple alignment tools consumes several CPU hours on high performance computer. Hence, computational biology and bioinformatics rely on hardware accelerators to allow processing to keep up with the increasing amount of data generated from biology applications.
In a typical application, dominant portion of the runtime is spent in a small number of computational kernels, making it an excellent target for hardware acceleration. The combination of increasingly large datasets and high performance computing requirements make computational biology prime candidate to benefit from accelerator architecture research. Potential directions include 3D integration, near-data processing, automata processing, associative processing and reconfigurable architectures.
Topics of interest:
– Impact of bioinformatics and biology applications on computer architecture research
– Bioinformatics and computational biology accelerator architecture and design
– 3D memory-logic stack based accelerators
– Automata processing in bioinformatics and computational biology applications
– Associative processing in bioinformatics and computational biology applications
– Near-data (in-memory) acceleration bioinformatics and computational biology applications
– Emerging memory technologies and their impact on bioinformatics and computational biology
– Embedded and reconfigurable architectures
– Field programmable logic based accelerators
– Bioinformatics and computational biology-inspired hardware/software trade-offs
– Software acceleration of computational biology and bioinformatics
Keynote talks by: Bill Dally (Stanford & NVIDIA), Onur Mutlu (ETH & CMU).
We will also have an invited talk by Ananth Kalyanaraman (WSU).
Full schedule can be found in Workshop’s website: https://aacbb-workshop.github.io/