16,766 research outputs found
Recommended from our members
Automatic synthesis of analog layout : a survey
A review of recent research in the automatic synthesis of physical geometry for analog integrated circuits is presented. On introduction, an explanation of the difficulties involved in analog layout as opposed to digital layout is covered. Review of the literature then follows. Emphasis is placed on the exposition of general methods for addressing problems specific to analog layout, with the details of specific systems only being given when they surve to illustrate these methods well. The conclusion discusses problems remaining and offers a prediction as to how technology will evolve to solve them. It is argued that although progress has been and will continue to be made in the automation of analog IC layout, due to fundamental differences in the nature of analog IC design as opposed to digital design, it should not be expected that the level of automation of the former will reach that of the latter any time soon
High-level power optimisation for Digital Signal Processing in Recon gurable Logic
This thesis is concerned with the optimisation of Digital Signal Processing (DSP) algorithm
implementations on recon gurable hardware via the selection of appropriate word-lengths
for the signals in these algorithms, in order to minimise system power consumption. Whilst
existing word-length optimisation work has concentrated on the minimisation of the area of
algorithm implementations, this work introduces the rst set of power consumption models
that can be evaluated quickly enough to be used within the search of the enormous design
space of multiple word-length optimisation problems. These models achieve their speed by
estimating both the power consumed within the arithmetic components of an algorithm
and the power in the routing wires that connect these components, using only a high-level
description of the algorithm itself. Trading o a small reduction in power model accuracy
for a large increase in speed is one of the major contributions of this thesis.
In addition to the work on power consumption modelling, this thesis also develops a
new technique for selecting the appropriate word-lengths for an algorithm implementation
in order to minimise its cost in terms of power (or some other metric for which models
are available). The method developed is able to provide tight lower and upper bounds on
the optimal cost that can be obtained for a particular word-length optimisation problem
and can, as a result, nd provably near-optimal solutions to word-length optimisation
problems without resorting to an NP-hard search of the design space.
Finally the costs of systems optimised via the proposed technique are compared to
those obtainable by word-length optimisation for minimisation of other metrics (such as
logic area) and the results compared, providing greater insight into the nature of wordlength
optimisation problems and the extent of the improvements obtainable by them
TAG: Learning Circuit Spatial Embedding From Layouts
Analog and mixed-signal (AMS) circuit designs still rely on human design
expertise. Machine learning has been assisting circuit design automation by
replacing human experience with artificial intelligence. This paper presents
TAG, a new paradigm of learning the circuit representation from layouts
leveraging text, self-attention and graph. The embedding network model learns
spatial information without manual labeling. We introduce text embedding and a
self-attention mechanism to AMS circuit learning. Experimental results
demonstrate the ability to predict layout distances between instances with
industrial FinFET technology benchmarks. The effectiveness of the circuit
representation is verified by showing the transferability to three other
learning tasks with limited data in the case studies: layout matching
prediction, wirelength estimation, and net parasitic capacitance prediction.Comment: Accepted by ICCAD 202
Hybrid FPGA: Architecture and Interface
Hybrid FPGAs (Field Programmable Gate Arrays) are composed of general-purpose logic resources
with different granularities, together with domain-specific coarse-grained units. This thesis proposes
a novel hybrid FPGA architecture with embedded coarse-grained Floating Point Units (FPUs) to
improve the floating point capability of FPGAs. Based on the proposed hybrid FPGA architecture,
we examine three aspects to optimise the speed and area for domain-specific applications.
First, we examine the interface between large coarse-grained embedded blocks (EBs) and fine-grained
elements in hybrid FPGAs. The interface includes parameters for varying: (1) aspect ratio of EBs,
(2) position of the EBs in the FPGA, (3) I/O pins arrangement of EBs, (4) interconnect flexibility of
EBs, and (5) location of additional embedded elements such as memory.
Second, we examine the interconnect structure for hybrid FPGAs. We investigate how large and highdensity
EBs affect the routing demand for hybrid FPGAs over a set of domain-specific applications.
We then propose three routing optimisation methods to meet the additional routing demand introduced
by large EBs: (1) identifying the best separation distance between EBs, (2) adding routing switches on
EBs to increase routing flexibility, and (3) introducing wider channel width near the edge of EBs. We
study and compare the trade-offs in delay, area and routability of these three optimisation methods.
Finally, we employ common subgraph extraction to determine the number of floating point adders/subtractors,
multipliers and wordblocks in the FPUs. The wordblocks include registers and can implement fixed
point operations. We study the area, speed and utilisation trade-offs of the selected FPU subgraphs
in a set of floating point benchmark circuits. We develop an optimised coarse-grained FPU, taking
into account both architectural and system-level issues. Furthermore, we investigate the trade-offs
between granularities and performance by composing small FPUs into a large FPU.
The results of this thesis would help design a domain-specific hybrid FPGA to meet user requirements,
by optimising for speed, area or a combination of speed and area
HIGH PERFORMANCE CLOCK DISTRIBUTION FOR HIGH-SPEED VLSI SYSTEMS
Tohoku University堀口 進課
Simulated Annealing with min-cut and greedy perturbations
Custom integrated circuit design requires an ever increasing number of elements to be placed on a physical die. The process of searching for an optimal solution is NP-hard so heuristics are required to achieve satisfactory results under time constraints.
Simulated Annealing is an algorithm which uses randomly generated perturbations to adjust a single solution. The effect of a generated perturbation is examined by a cost function which evaluates the solution. If the perturbation decreases the cost, it is accepted. If it increases the cost, it is accepted probabilistically. Such an approach allows the algorithm to avoid local minima and find satisfactory solutions. One problem faced by Simulated Annealing is that it can take a very large number of iterations to reach a desired result. Greedy perturbations use knowledge of the system to generate solutions which may be satisfactory after fewer iterations than non-greedy, however previous work has indicated that the exclusive use of greedy perturbations seems to result in a solution constrained to local minima.
Min-cut is a procedure in which a graph is split into two pieces with the least interconnection possible between them. Using this with a placement problem helps to recognize components which belong to the same functional unit and thus enhance results of Simulated Annealing. The feasibility of this approach has been assessed.
Hardware, through parallelization, can be used to increase the performance of algorithms by decreasing runtime. The possibility of increased performance motivated the exploration of the ability to model greedy perturbations in hardware. The use of greedy perturbations while avoiding local minima was also explored
The IPS fidelity scale as a guideline to implement Supported Employment
info:eu-repo/semantics/publishe
- …