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Space Efficient Sequence Alignment for SRAM-Based Computing: X-Drop on the Graphcore IPU
DescriptionDedicated accelerator hardware has become essential for processing AI-based workloads, leading to the rise of novel accelerator architectures. Furthermore, fundamental differences in memory architecture and parallelism have made these accelerators targets for scientific computing. The sequence alignment problem is fundamental in bioinformatics; we have implemented the X-Drop algorithm, a heuristic method for pairwise alignment that reduces search space, on the Graphcore Intelligence Processor Unit (IPU) accelerator. The X-Drop algorithm has an irregular computational pattern, which makes it difficult to accelerate due to load balancing.

Here, we introduce a graph-based partitioning and queue-based batch system to improve load balancing. Our implementation achieves 10x speedup over a state-of-the-art GPU implementation and up to 4.65x compared to CPU. In addition, we introduce a memory-restricted X-Drop algorithm that reduces memory footprint by 55x and efficiently uses the IPU's limited low-latency SRAM. This optimization further improves the strong scaling performance by 3.6x.
Event Type
Paper
TimeTuesday, 14 November 20234:30pm - 5pm MST
Location405-406-407
Tags
Accelerators
Applications
Graph Algorithms and Frameworks
Performance Measurement, Modeling, and Tools
Programming Frameworks and System Software
Registration Categories
TP