With the rise of Big Data, providing high-performance query processing capabilities through the acceleration of the database analytic has gained significant attention. Leveraging Field Programmable Gate Array (FPGA) technology, this approach can lead to clear benefits. In this work, we present the design and implementation of AxleDB: An FPGA-based platform that enables fast query processing for database systems by melding novel database-specific accelerators with commercial-off-the-shelf (COTS) storage using modern interfaces, in a novel, unified, and a programmable environment. AxleDB can perform a large subset of SQL queries through its set of instructions that can map compute-intensive database operations, such as filter, arithmetic, agg...
General purpose computing platforms have generally been favored over customized computational setups...
Extracting valuable information from the rapidly growing field of Big Data faces serious performance...
In this monograph, we survey recent research on using reconfigurable hardware accelerators, namely, ...
Though field-programmable gate arrays (FPGAs) have been used to accelerate database systems, they ha...
Database management systems have become an indispensable tool for industry, government, and academia...
Database management systems have traditionally been implemented entirely in software. However, addin...
Database systems are key to a variety of applications, and FPGA-based accelerators have shown promis...
There has been an increasing interest in moving computation closer to storage in recent years due to...
In this paper, we propose an approach for energy-aware FPGA-based query acceleration for databases o...
Relational database systems provide various services and applications with an efficient means for st...
In line with the insight that “one size ” of databases will not fit all application needs [19], the ...
The increasing volume and latency requirements of big data impose challenges on the processing capac...
While FPGAs have seen prior use in database systems, in recent years interest in using FPGA to accel...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
General purpose computing platforms have generally been favored over customized computational setups...
General purpose computing platforms have generally been favored over customized computational setups...
Extracting valuable information from the rapidly growing field of Big Data faces serious performance...
In this monograph, we survey recent research on using reconfigurable hardware accelerators, namely, ...
Though field-programmable gate arrays (FPGAs) have been used to accelerate database systems, they ha...
Database management systems have become an indispensable tool for industry, government, and academia...
Database management systems have traditionally been implemented entirely in software. However, addin...
Database systems are key to a variety of applications, and FPGA-based accelerators have shown promis...
There has been an increasing interest in moving computation closer to storage in recent years due to...
In this paper, we propose an approach for energy-aware FPGA-based query acceleration for databases o...
Relational database systems provide various services and applications with an efficient means for st...
In line with the insight that “one size ” of databases will not fit all application needs [19], the ...
The increasing volume and latency requirements of big data impose challenges on the processing capac...
While FPGAs have seen prior use in database systems, in recent years interest in using FPGA to accel...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
General purpose computing platforms have generally been favored over customized computational setups...
General purpose computing platforms have generally been favored over customized computational setups...
Extracting valuable information from the rapidly growing field of Big Data faces serious performance...
In this monograph, we survey recent research on using reconfigurable hardware accelerators, namely, ...