Sebastian Haas scite author profile

The key task of database systems is to efficiently manage large amounts of data. A high query throughput and a low query latency are essential for the success of a database system. Lately, research focused on exploiting hardware features like superscalar execution units, SIMD, or multiple cores to speed up processing. Apart from these software optimizations for given hardware, even tailor-made processing circuits running on FPGAs are built to run mostly stateless query plans with incredibly high throughput. A similar idea, which was already considered three decades ago, is to build tailor-made hardware like a database processor. Despite their superior performance, such application-specific processors were not considered to be beneficial because generalpurpose processors eventually always caught up so that the high development costs did not pay off. In this paper, we show that the development of a database processor is much more feasible nowadays through the availability of customizable processors. We illustrate exemplarily how to create an instruction set extension for set-oriented database primitives. The resulting application-specific processor provides not only a high performance but it also enables very energyefficient processing. Our processor requires in various configurations more than 960x less energy than a high-end x86 processor while providing the same performance.

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A Low-Power Scalable Signal Processing Chip Platform for 5G and Beyond - Kachel

Fettweis

Häßler

Wittig

et al. 2019

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HW/SW-database-codesign for compressed bitmap index processing

Haas

Karnagel

Arnold

et al. 2016

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A database accelerator for energy-efficient query processing and optimization

Haas

Arnold

Scholze

et al. 2016

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Sebastian Haas

A Heterogeneous SDR MPSoC in 28 nm CMOS for Low-Latency Wireless Applications

An MPSoC for energy-efficient database query processing

5G-and-Beyond Scalable Machines

A Hardware/Software Stack for Heterogeneous Systems

An application-specific instruction set for accelerating set-oriented database primitives

A Low-Power Scalable Signal Processing Chip Platform for 5G and Beyond - Kachel

HW/SW-database-codesign for compressed bitmap index processing

A database accelerator for energy-efficient query processing and optimization

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