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Raspberry Pi

Raspberry PI is about the size of a credit card, has a 32-bit ARM processor and uses a Fedora distribution of Linux for its default operating system (OS).

BeagleBone Black

BeagleBone Black is a low-cost, community-supported development platform for developers and hobbyists.

Open Source

The term usually means that the information regarding Hardware and Software is easily available. There are no hassles for working with them and you can experiment with them.

AVR

The AVR is a modified Harvard architecture 8-bit RISC single chip micro controller.

BeagleBoard-xM

The BeagleBoard-xM is a 1 GHz ARM Cortex-A8 core designed with community inputs in mind. This open hardware design brings the previous generations' laptop-like performance and expandability to the next level.

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FPGA Design

Vistronics provides FPGA services based on your functional specification and performance requirements. Our methodology covers all the steps in the FPGA design process, from frontend RTL design to generating the final FPGA configuration file. Our FPGA design services include:

  • RTL Coding (Verilog/VHDL).
  • Functional and Gate-Level Verification.
  • Selecting correct FPGA Resources (DPLL, Special pins, I/O's etc).
  • Synthesis & Timing Analysis. Place & Route.
  • Configuration File Generation.
  • FPGA Design Conversion.
  • Configuration for FPGA device programming.

Verification

Vistronics offers full-service support for SOC and ASIC designs, from customer’s specification to GDSII with full verification. With ever-increasing emphasis on faster, better quality and lower cost in today's multi-million gate complex SOC and ASIC designs, Vistronics provides service expertise in numerous areas to convert design specifications to working silicon in short time.

Our areas of expertise include:

  • Architecture and Design.
  • Design Verification.
  • Design Methodology & Flow.

Our Architecture and Design services include:

  • Architectural specification & Modelling.
  • Micro-architecture design.
  • RTL coding.
  • Design Partitioning and implementation.
  • Model Development for simulation.
  • Synthesis and chip integration.
  • Formal verification.

Design Verification:

  • Test plan development.
  • Verification, Test & Regression environment setup.
  • Directed test generation.
  • Directed and focused Random test generation.
  • Model Development for simulation.
  • Functional & Code Coverage Analysis.
  • Gate Level Verification with and without timing.
  • Test Vector Generation.