International audienceThis paper addresses the design of multi-mode architectures for digital signal processing applications. We present a dedicated design flow and its associated high-level synthesis tool, named GAUT. Given a unified description of a set of time-wise mutually exclusive tasks and their associated throughput constraints, a single RTL hardware architecture optimized in area is generated. In order to reduce the register, steering logic (multiplexers) and controller (decoding logic) complexities, we propose a joint-scheduling algorithm which maximizes the similarities between control steps and specific binding approaches for both functional units and storage elements which maximize the similarities between the datapaths. We sho...
This thesis studies the design of an architectural platform for realizing a set of selected applicat...
We propose an efficient IP-block-based design environment for high-throughput VLSI systems. The flow...
International audienceThe interest in using High-Level Synthesis flows to design Digital Signal Proc...
International audienceThis paper addresses the design of multi-mode architectures for digital signal...
In this paper, we propose a design methodology for implementing a multimode (or multi-configuration)...
The design of complex Digital Signal Processing systems implies to minimize architectural cost and t...
The design of complex Digital Signal Processing systems implies to minimize architectural cost and t...
As a result of enormous competition in the system-on-chip industry, the current trends of system lev...
The design of complex Systems-on-Chips implies to take into account communication and timing constra...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In this paper we present PEPSY, a novel prototyping environment for multi-DSP systems, with the prim...
This paper presents a versatile scheduling model and an effi-cient control synthesis methodology whi...
The ever increasing complexity of Digital Signal Processing and other data independent scientific co...
[[abstract]]In this paper, we present methods for scheduling and partitioning behavioral description...
This thesis studies the design of an architectural platform for realizing a set of selected applicat...
We propose an efficient IP-block-based design environment for high-throughput VLSI systems. The flow...
International audienceThe interest in using High-Level Synthesis flows to design Digital Signal Proc...
International audienceThis paper addresses the design of multi-mode architectures for digital signal...
In this paper, we propose a design methodology for implementing a multimode (or multi-configuration)...
The design of complex Digital Signal Processing systems implies to minimize architectural cost and t...
The design of complex Digital Signal Processing systems implies to minimize architectural cost and t...
As a result of enormous competition in the system-on-chip industry, the current trends of system lev...
The design of complex Systems-on-Chips implies to take into account communication and timing constra...
International audienceIn a mobile society, more and more devices need to continuously adapt to chang...
In this paper we present PEPSY, a novel prototyping environment for multi-DSP systems, with the prim...
This paper presents a versatile scheduling model and an effi-cient control synthesis methodology whi...
The ever increasing complexity of Digital Signal Processing and other data independent scientific co...
[[abstract]]In this paper, we present methods for scheduling and partitioning behavioral description...
This thesis studies the design of an architectural platform for realizing a set of selected applicat...
We propose an efficient IP-block-based design environment for high-throughput VLSI systems. The flow...
International audienceThe interest in using High-Level Synthesis flows to design Digital Signal Proc...