Spelling suggestions: "subject:"programmable game"" "subject:"programmable gave""
231 |
Implementation of an industrial process control interface for the LSC11 system using Lattice ECP2M FPGAMurali Baskar Rao, Parthasarathy January 2012 (has links)
Reconfigurable devices are the mainstream in today’s system on chip solutions. Reconfigurable devices have the advantages of reduced cost over their equivalent custom design, quick time to market and the ability to reconfigure the design at will and ease. One such reconfigurable device is an FPGA. In this industrial thesis, the design and implementation of a control process interface using ECP2M FPGA and PCIe communication is accomplished. This control process interface is designed and implemented for a 3-D plotter system called LSC11. In this thesis, the FPGA unit implemented drives the plotter device based on specific timing requirements charted by the customer. The FPGA unit is interfaced to a Host CPU in this thesis (through PCIe communication) for controlling the LSC11 system using a custom software. All the peripherals required for the LSC11 system such as the ADC, DAC, Quadrature decoder and the PWM unit are also implemented as part of this thesis. This thesis also implements an efficient methodology to send all the inputs of the LSC11 system to the Host CPU without the necessity for issuing any cyclic read commands on the Host CPU. The RTL design is synthesised in FPGA and the system is verified for correctness and accuracy. The LSC11 system design consumed 79% of the total FPGA resources and the maximum clock frequency achieved was 130 Mhz. This thesis has been carried out at Abaxor Engineering GmbH, Germany. It is demonstrated in this thesis how FPGA aids in quick designing and implementation of system on chip solutions with PCIe communication.
|
232 |
Energy Efficiency Analysis and Implementation of AES on an FPGAKenney, David January 2008 (has links)
The Advanced Encryption Standard (AES) was developed by Joan Daemen and Vincent Rjimen and endorsed by the National Institute of Standards and Technology in 2001. It was designed to replace the aging Data Encryption Standard (DES) and be useful for a wide range of applications with varying throughput, area, power dissipation and energy consumption requirements.
Field Programmable Gate Arrays (FPGAs) are flexible and reconfigurable integrated circuits that are useful for many different applications including the implementation of AES. Though they are highly flexible, FPGAs are often less efficient than Application Specific Integrated Circuits (ASICs); they tend to operate slower, take up more space and dissipate more power. There have been many FPGA AES implementations that focus on obtaining high throughput or low area usage, but very little research done in the area of low power or energy efficient FPGA based AES; in fact, it is rare for estimates on power dissipation to be made at all.
This thesis presents a methodology to evaluate the energy efficiency of FPGA based AES designs and proposes a novel FPGA AES implementation which is highly flexible and energy efficient. The proposed methodology is implemented as part of a novel scripting tool, the AES Energy Analyzer, which is able to fully characterize the power dissipation and energy efficiency of FPGA based AES designs. Additionally, this thesis introduces a new FPGA power reduction technique called Opportunistic Combinational Operand Gating (OCOG) which is used in the proposed energy efficient implementation.
The AES Energy Analyzer was able to estimate the power dissipation and energy efficiency of the proposed AES design during its most commonly performed operations. It was found that the proposed implementation consumes less energy per operation than any previous FPGA based AES implementations that included power estimations. Finally, the use of Opportunistic Combinational Operand Gating on an AES cipher was found to reduce its dynamic power consumption by up to 17% when compared to an identical design that did not employ the technique.
|
233 |
Guarded Evaluation: An Algorithm for Dynamic Power Reduction in FPGAsRavishankar, Chirag January 2012 (has links)
Guarded evaluation is a power reduction technique that involves
identifying sub-circuits (within a larger circuit) whose inputs can be
held constant (guarded) at specific times during circuit operation,
thereby reducing switching activity and lowering dynamic power. The
concept is rooted in the property that under certain conditions, some
signals within digital designs are not "observable" at design
outputs, making the circuitry that generates such signals a candidate
for guarding.
Guarded evaluation has been demonstrated successfully
for custom ASICs; in this work, we apply the technique to FPGAs. In
ASICs, guarded evaluation entails adding additional hardware to the
design, increasing silicon area and cost. Here, we apply the technique
in a way that imposes minimal area overhead by leveraging existing
unused circuitry within the FPGA. The LUT functionality is modified
to incorporate the guards and reduce toggle rates.
The primary challenge in guarded evaluation is in determining the specific conditions under which a sub-circuit's
inputs can be held constant without impacting the larger
circuit's functional correctness. We propose a simple solution to
this problem based on discovering gating inputs using "non-inverting paths"
and trimming inputs using "partial non-inverting paths" in the
circuit's AND-Inverter graph representation.
Experimental results show that guarded evaluation can reduce switching activity by
as much as 32% for FPGAs with 6-LUT architectures and 25% for 4-LUT architectures, on
average, and can reduce power consumption in the FPGA interconnect by
29% for 6-LUTs and 27% for 4-LUTs. A clustered architecture with four LUTs to a cluster
and ten LUTs to a cluster produced the best power reduction results.
We implement guarded evaluation at various stages of the FPGA CAD flow and analyze the reductions. We implement
the algorithm as post technology mapping, post packing and post placement optimizations. Guarded Evaluation
as a post technology mapping algorithm inserted the most number of guards and hence achieved the highest activity
and interconnect reduction. However, guarding signals come with a cost of increased fanout and stress on routing
resources. Packing and placement provides the algorithm with additional information of the circuit which is leveraged
to insert high quality guards with minimal impact on routing. Experimental results show that post-packing
and post-placement methods have comparable reductions to post-mapping with considerably lesser impact on the critical
path delay and routability of the circuit.
|
234 |
MITE Architectures for Reconfigurable Analog ArraysAbramson, David 02 December 2004 (has links)
With the introduction of the floating-gate transistor into reconfigurable architectures, great advances have been made in the field. Recently, Hall et. al. have proposed the first truly large-scale field programmable analog array (FPAA). As an outgrowth of this work, a new class of FPAAs based on translinear elements has begun to be developed. The use of translinear elements, multiple input translinear elements (MITEs) specifically, allows for extreme versatility in the functions implemented by the system while keeping the computational elements of the FPAA regular. In addition, synthesis procedures have been developed for translinear elements. This facilitates the implementation of large-scale systems on the FPAA because the circuit design can be extracted using the synthesis procedures based on equations entered by the user.
Two architectures are proposed for the new FPAA. The first architecture uses fine grain reconfigurability, every gate capacitor and the drain of each MITE can be connected arbitrarily, in order to create reconfigurable MITE networks. Circuits including a squaring circuit, a square root circuit, a translinear loop, a vector magnitude circuit, and a 1st-order log-domain filter were implemented using this architecture and results are presented. In addition, examples are shown to illustrate the compilation of the circuits onto the FPAA. The second proposed architecture uses a mix of fine and medium granularity in order to simplify the implementation of larger systems. Examples are given and again the compilation of the circuits onto the FPAA is shown.
|
235 |
Digital Circuit Design of Wavelet- Probabilistic Network Algorithm for Power SystemsWang, Chia-Hao 21 June 2005 (has links)
The paper proposes a model of detection for voltages and harmonics using wavelet-probabilistic network (WPN). WPN is a two-layer structure, containing the wavelet layer and probabilistic network. It uses the wavelet transformation (WT) and probabilistic neural network (PNN) to analyze distorted waves and classify tasks. In this thesis, the field programmable gate array (FPGA) is employed for the hardware realization of WPN. In the implementation process, by the use of the hardware description language, the WPN algorithm has been embedded into the FPGA chip. Firstly, we divide the mathematical formula of basic WPN algorithm into several parts in order to set up each module individually, then we integrate all modules to complete the design of basic WPN algorithm with digital circuits by the bottom-up process.
|
236 |
Sim2spice, a tool for compiling simulink designs on FPAA and applications to neuromorphic circuitsPetre, Csaba 18 November 2009 (has links)
Analog circuit technology is of vital importance in today's world of electronic design. Increasing prevalence of mobile electronics necessitates the search for solutions which offer high performance given tight constraints on power and chip area. Field programmable arrays utilizing floating-gate technology are one possible solution to analog design. It offers the advantages of analog processing with the additional advantage of reconfigurability, giving the designer the ability to test new analog designs without costly and time-consuming fabrication and test cycles.
In this work, a new interface for FPAA's is demonstrated called Sim2spice, with which users can design signal processing systems in Matlab Simulink and compile them to SPICE circuit netlists. These netlists can be further compiled with a tool called GRASPER to a switch list for programming on an FPAA chip. Example library elements are shown, along with some compiled systems such as filters and vector-matrix multipliers.
One particularly compelling application of reconfigurable analog design is the field of neuromorphic circuits, which aims to reproduce the basic functional characteristics of biological neurons and synapses in analog integrated circuit technology. Simulink libraries have been built to allow designers to build neuromorphic systems on several FPAAs that have been developed expressly for the purpose of building neurons and connecting them in networks with synapses. Several possible dynamically learning synapses have also been explored.
|
237 |
FPGA-based hardware accelerator design for performance improvement of a system-on-a-chip applicationVyas, Dhaval N. January 2005 (has links)
Thesis (M.S.)--State University of New York at Binghamton, Department of Electrical and Computer Engineering. / Includes bibliographical references (p. 55-56).
|
238 |
FPGA implementation of low density parity check codes decoderVijayakumar, Suresh. Mikler, Armin, January 2009 (has links)
Thesis (M.S.)--University of North Texas, August, 2009. / Title from title page display. Includes bibliographical references.
|
239 |
Design and implementation of a multithreaded softcore processor with tightly coupled hardware real-time operating systemWijesinghe, Terance Prabhasara. January 1900 (has links)
Thesis (M.S.)--West Virginia University, 2008. / Title from document title page. Document formatted into pages; contains ix, 107 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 101-107).
|
240 |
CAD algorithms for field programmable logic devices /Lee, Kok Kiong, January 2000 (has links)
Thesis (Ph. D.)--University of Texas at Austin, 2000. / Vita. Includes bibliographical references (leaves 134-144). Available also in a digital version from Dissertation Abstracts.
|
Page generated in 0.0717 seconds