Sökning: "dataflow applications"
Visar resultat 1 - 5 av 18 avhandlingar innehållade orden dataflow applications.
1. Utilizing Heterogeneity in Manycore Architectures for Streaming Applications
Sammanfattning : In the last decade, we have seen a transition from single-core to manycore in computer architectures due to performance requirements and limitations in power consumption and heat dissipation. The first manycores had homogeneous architectures consisting of a few identical cores. LÄS MER
2. Models and Methods for Development of DSP Applications on Manycore Processors
Sammanfattning : Advanced digital signal processing systems require specialized high-performance embedded computer architectures. The term high-performance translates to large amounts of data and computations per time unit. The term embedded further implies requirements on physical size and power efficiency. LÄS MER
3. Energy and Design Cost Efficiency for Streaming Applications on Systems-on-Chip
Sammanfattning : With the increasing capacity of today's integrated circuits, a number ofheterogeneous system-on-chip (SoC) architectures in embedded systemshave been proposed. In order to achieve energy and design cost efficientstreaming applications on these systems, new design space explorationframeworks and performance analysis approaches are required. LÄS MER
4. Streaming Aggregation using Reconfigurable Hardware
Sammanfattning : High throughput and low latency streaming aggregation is essential for many applications that analyze massive volumes of data in real-time. In many cases, high speed stream aggregation can be achieved incrementally by computing partial results for multiple windows. LÄS MER
5. Reconfigurable-Hardware Accelerated Stream Aggregation
Sammanfattning : High throughput and low latency stream aggregation is essential for many applications that analyze massive volumes of data in real-time. Incoming data need to be stored in a single sliding-window before processing, in cases where incremental aggregations are wasteful or not possible at all. LÄS MER