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FPGA (Field-Programmable Gate Array) Design & Implementation
FPGA (Field-Programmable Gate Array) Design & Implementation MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch | Duration: 32 lectures (11h 26m) | 2.96 GB Genre: eLearning | Language: English + srt Become FPGA Design Engineer. Learn FPGA Design Engineering, Design Flows & Tools, FPGA DSP Circuits, Protoflex, PLI etc What you'll learn Gain end-to-end knowledge of FPGA design engineering & implementation Acquire skills to become FPGA Design & Implementation Engineer Learn FPGA Design flows & design tools Understand and implement FPGA Design using Verilog Learn FPGA Testing Simulate and implement SOPC Design Learn how to read data from Peripherals Learn FPGA implementation of DSP Circuits Define Wordcount using MapReduce for FPGA Describe Protoflex and Reconfigurable Hardware Understand challenges in using FPAA FPGA in Mixed Signal Technology Get knowledge of Mentor Graphics Tools & Guidelines Define & execute Spartan FPGA and Memristive FPGA Requirements Enthusiasm and determination to make your mark on the world! Description A warm welcome to the FPGA Design & Implementation course by Uplatz FPGA stands for Field Programmable Gate Array. FPGA is essentially an integrated circuit that can be programmed by a user for a specific use after it has been manufactured. The modern day FPGAs contain adaptive logic modules (ALMs) and logic elements (LEs) connected via programmable interconnects. These blocks create a physical array of logic gates that can be customized to perform specific computing tasks. This makes them very different from other types of microcontrollers or Central Processing Units (CPUs), whose configuration is set and sealed by a manufacturer and cannot be modified. FPGA programming has become a buzzword these days due to it offering considerable benefits over the traditional ICs. FPGA allows you to offload resource hungry-tasks to hardware and thus cause a significant increase in performance. FPGAs can be programmed and reprogrammed according to the dynamic needs. FPGA Design & Implementation - Course Syllabus Introduction to FPGA (Field Programmable Gate Arrays) FPGA Testing FPGA Design Flows & Design Tools FPGA Design using Verilog - Introduction FPGA Design using Verilog - Verilog overview FPGA Design using Verilog - Data Types FPGA Design using Verilog - Procedural Assignments FPGA Design using Verilog - VHDL Design using Verilog FPGA Design using Verilog - Visual Verification of Designs FPGA Design using Verilog - Finite State Machines - part 1 FPGA Design using Verilog - Finite State Machines - part 2 FPGA Design using Verilog - Design Examples FPGA Design using Verilog - Test Benches FPGA Design using Verilog - SystemVerilog for Synthesis FPGA Design using Verilog - Packages & Interfaces Simulate and implement SOPC Design Reading Data from Peripherals UART SDRAM Python Script fpga-design-and-implementationexecution in Quartus and ModelSim NIOS Image Processing using FPGA Challenges in using FPAA FPGA in Mixed Signal Technology Protoflex Reconfigurable Hardware course Wordcount using MapReduce for FPGA FPGA implementation of DSP Circuits Reversible Logic Circuits FPGA implementation of Divider in Finite Field www.udemy.comPrinciples of PLI Spartan FPGA implementation Programmable Chips and Boards Memristive FPGA Mentor Graphics Tools & Guidelines Who this course is for FPGAASIC Engineers Electronics & Instrumentation Engineers Electronics Design Engineers - Medical Devices FPGA Electronics Engineers VHDL FPGA Digital Design Engineers https: Implementation Engineers FPGA Design Engineers FPGA Engineers FPGA Algorithm Engineers Newbies & Beginners aspiring for a career in FPGA Design Engineering FPGA Design Consultants FPGA Crypto Validation Engineers FPGA Design Application Engineers FPGA