This paper presents the first FPGA-based single window stream aggregation design. Using Maxeler's dataflow engines (DFEs), up to 8 million tuples-per-second can ...

Abstract—High throughput and low latency stream aggre- gation – and stream processing in general – is critical for many emerging applications that analyze ...

This paper presents the first FPGA- based single window stream aggregation design. Using Maxeler's dataflow engines (DFEs), up to 8 million tuples-per-second ...

Due to the specific computation patterns of SWAGs, these general processors are not efficient for SWAG processing incurring high latency and bloated memory ...

This thesis presents the first FPGA-based single window stream aggregation designs for tuple-based and time-based windowing policies. The proposed approach is ...

This paper presents the first FPGA-based single window stream aggregation design. Using Maxeler's dataflow engines (DFEs), up to 8 million tuples-per-second can ...

Bibliographic details on Single window stream aggregation using reconfigurable hardware.

This thesis addresses the above limitations of stream processing systems by proposing techniques for accelerating single sliding-window stream aggregation using ...

This thesis addresses the above limitations of stream processing systems by proposing techniques for accelerating single sliding-window stream aggregation ...

This thesis presents the first FPGA-based single window stream aggregation designs for tuple-based and time-based windowing policies. The proposed approach is ...