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Connectivity FPGA Design Curriculum Path

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This course provides the overall context and framework for the development cycle of FPGAs. For those uninitiated to FPGA design, this course will arm you with the proper planning techniques, strategy, and FPGA tool flow to get up and designing an FPGA design now. The flow will take you from behavioral specification to tuning specifications for the FPGA, synthesis, verification, and onto implementation and download. Click For Additional Details Click Here to Register for This Course ISE Design Tool Flow provides the overall context and framework for the development cycle of fpgas. for those uninitiated to fpga design, this course will arm you with the proper planning techniques, strategy, and fpga tool flow to get up and designing an fpga design now. Click For Additional Details This course provides the overall context and framework for the development cycle of FPGAs. For those uninitiated to FPGA design, this course will arm you with the proper planning techniques, strategy, and FPGA tool flow to get up and designing an FPGA design now. The flow will take you from behavioral specification to tuning specifications for the FPGA, synthesis, verification, and onto implementation and download. Click For Additional Details This comprehensive course is a thorough introduction to the VHDL language. The emphasis is on writing Register Transfer Level (RTL) and behavioral source code. This class addresses targeting Xilinx devices specifically and FPGA devices in general. Click For Additional Details Click Here to Test Your Skills Click Here to Register for This Course This comprehensive course is a thorough introduction to the VHDL language. The emphasis is on writing Register Transfer Level (RTL) and behavioral source code. This class addresses targeting Xilinx devices specifically and FPGA devices in general. Click For Additional Details Increase your VHDL proficiency by learning advanced techniques that help you write more robust and reusable code. This comprehensive course is targeted toward designers who already have some experience with VHDL. Click For Additional Details Click Here to Test Your Skills Click Here to Register for This Course Increase your VHDL proficiency by learning advanced techniques that help you write more robust and reusable code. This comprehensive course is targeted toward designers who already have some experience with VHDL. Click For Additional Details This comprehensive course is a thorough introduction to the Verilog language. The emphasis is on writing Register Transfer Level (RTL) and behavioral source code. This class addresses targeting Xilinx devices specifically and FPGA devices in general. Click For Additional Details Click Here to Register for This Course Click Here to Test Your Skills This comprehensive course is a thorough introduction to the Verilog language. The emphasis is on writing Register Transfer Level (RTL) and behavioral source code. This class addresses targeting Xilinx devices specifically and FPGA devices in general. Click For Additional Details This course offers detailed training on the Vivado™ software tool flow, Xilinx design constraints (XDC), and static timing analysis (STA). Learn to use good FPGA design practices and all FPGA resources to advantage. Learn to fully and appropriately constrain your design by using industry-standard XDC constraints. Learn how the the Vivado IDE design database is structured and learn to traverse the design. Create appropriate timing reports to perform full STA and how to appropriately synthesize your design. Click For Additional Details Click Here to Register for This Course This course offers detailed training on the Vivado™ software tool flow, Xilinx design constraints (XDC), and static timing analysis (STA). Learn to use good FPGA design practices and all FPGA resources to advantage. Learn to fully and appropriately constrain your design by using industry-standard XDC constraints. Learn how the the Vivado IDE design database is structured and learn to traverse the design. Create appropriate timing reports to perform full STA and how to appropriately synthesize your design. Click For Additional Details Use the ISE software tools to implement a design and gain a firm understanding of the Xilinx FPGA architecture. Learn the best design practices from the pros and understand the subtleties of the Xilinx design flow. Click For Additional Details Click Here to Register for This Course Click Here to Test Your Skills Use the ISE software tools to implement a design and gain a firm understanding of the Xilinx FPGA architecture. Learn the best design practices from the pros and understand the subtleties of the Xilinx design flow. Click For Additional Details Learn how to use basic Tcl syntax and language structures to build scripts suitable for use with Xilinx FPGA design tools. Learn about the effective use of variables, data types, and Tcl constructs to build effective conditional statements and loop controls. You will also have the opportunity to use Tcl language constructs with several labs designed to provide you scripting experience within the Vivado™ Design Suite. Click For Additional Details Click Here to Register for This Course Learn how to use basic Tcl syntax and language structures to build scripts suitable for use with Xilinx FPGA design tools. Learn about the effective use of variables, data types, and Tcl constructs to build effective conditional statements and loop controls. You will also have the opportunity to use Tcl language constructs with several labs designed to provide you scripting experience within the Vivado™ Design Suite. Click For Additional Details This one-day course will show you effective ways to debug logic and high-speed designs thereby decreasing your overall design development time. This training will provide hands-on labs that demonstrate how the ChipScope Pro tools can address advanced verification and debugging challenges. Click For Additional Details Click Here to Register for This Course This one-day course will show you effective ways to debug logic and high-speed designs thereby decreasing your overall design development time. This training will provide hands-on labs that demonstrate how the ChipScope Pro tools can address advanced verification and debugging challenges. Click For Additional Details This comprehensive course is a thorough introduction to SystemVerilog constructs for design. This class addresses writing RTL code using the new constructs available in SystemVerilog. New data types, structs, unions, arrays, procedural blocks, re-usable tasks and functions, and packages, are all covered. The information gained can be applied to any digital design. This course combines insightful lectures with practical lab exercises to reinforce key concepts. Click For Additional Details Click Here to Register for This Course This comprehensive course is a thorough introduction to SystemVerilog constructs for design. This class addresses writing RTL code using the new constructs available in SystemVerilog. New data types, structs, unions, arrays, procedural blocks, re-usable tasks and functions, and packages, are all covered. The information gained can be applied to any digital design. This course combines insightful lectures with practical lab exercises to reinforce key concepts. Click For Additional Details This comprehensive course is a thorough introduction to SystemVerilog constructs for verification. This class addresses writing testbenches to verify your design under test (DUT) utilizing the new constructs available in SystemVerilog. Object-oriented modeling, new data types, re-usable tasks and functions, randomization, code coverage, assertions, and the Direct Programming Interface (DPI) are all covered. The information gained can be applied to any digital design verification approach. This course combines insightful lectures with practical lab exercises to reinforce key concepts. Click Here to Register for This Course This comprehensive course is a thorough introduction to SystemVerilog constructs for verification. This class addresses writing testbenches to verify your design under test (DUT) utilizing the new constructs available in SystemVerilog. Object-oriented modeling, new data types, re-usable tasks and functions, randomization, code coverage, assertions, and the Direct Programming Interface (DPI) are all covered. The information gained can be applied to any digital design verification approach. This course combines insightful lectures with practical lab exercises to reinforce key concepts. This course appeals to engineers who have an interest in developing low-cost products, particularly in high-volume markets. The course and exercises cover several different design techniques, which will be interesting and challenging for any digital designer regardless of the final application. Click For Additional Details No Skills Assessment at this time Click Here to Register for This Course This course appeals to engineers who have an interest in developing low-cost products, particularly in high-volume markets. The course and exercises cover several different design techniques, which will be interesting and challenging for any digital designer regardless of the final application. Click For Additional Details Attending the FPGA Power Optimization class will help you create a more power efficient FPGA design. This course can help you fit your design into a smaller FPGA, reduce your FPGAs power consumption, or run your FPGA at a lower temperature. In addition, by mastering the tools and design methodologies presented in this course, you will be able to create your design faster, shorten your development time, and lower development costs. Click For Additional Details Click Here to Register for This Course Attending the FPGA Power Optimization class will help you create a more power efficient FPGA design. This course can help you fit your design into a smaller FPGA, reduce your FPGAs power consumption, or run your FPGA at a lower temperature. In addition, by mastering the tools and design methodologies presented in this course, you will be able to create your design faster, shorten your development time, and lower development costs. Click For Additional Details This course introduces the Xilinx Analog Mixed Signal (AMS) solution and the appropriate tools and techniques for hardware engineers and analog engineers to utilize this solution. The complete front-to-back design flow is covered, including the evaluation of the Xilinx Analog-to-Digital Converter (XADC) block utilizing the KC705 board and the evaluator add-on card, the various ways to include the XADC in your design, XADC simulation of an analog input, viewing the digital output, and implementation. Click For Additional Details Click Here to Register for This Course This course introduces the Xilinx Analog Mixed Signal (AMS) solution and the appropriate tools and techniques for hardware engineers and analog engineers to utilize this solution. The complete front-to-back design flow is covered, including the evaluation of the Xilinx Analog-to-Digital Converter (XADC) block utilizing the KC705 board and the evaluator add-on card, the various ways to include the XADC in your design, XADC simulation of an analog input, viewing the digital output, and implementation. Click For Additional Details Are you interested in learning how to effectively utilize 7 series architectural resources? This course supports both experienced and less experienced FPGA designers who have already completed the Essentials of FPGA Design course. This course focuses on understanding as well as how to properly design for the primary resources found in this popular device family. Click For Additional Details Click Here to Register for This Course Are you interested in learning how to effectively utilize 7 series architectural resources? This course supports both experienced and less experienced FPGA designers who have already completed the Essentials of FPGA Design course. This course focuses on understanding as well as how to properly design for the primary resources found in this popular device family. Click For Additional Details Xilinx Embedded Design Curriculum Xilinx DSP Design Curriculum Xilinx Connectivity Design Curriculum Xilinx Advanced FPGA Design Curriculum This workshop introduces you to fundamental connectivity concepts and techniques for implementation in Xilinx FPGAs. The focus is on fundamental aspects of transceivers, PCIe® technology, memory interfaces, and Ethernet MACs. Only essential theory is introduced in order to lay a foundation for the material and topics covered in this workshop, which complements more detailed training found in subsequent Xilinx courses. Design examples and labs are drawn from the Connectivity Targeted Reference Design (TRD). In addition, an IBERT lab is available that highlights use of the MGT. Click For Additional Details Click Here to Register for This Course This workshop introduces you to fundamental connectivity concepts and techniques for implementation in Xilinx FPGAs. The focus is on fundamental aspects of transceivers, PCIe® technology, memory interfaces, and Ethernet MACs. Only essential theory is introduced in order to lay a foundation for the material and topics covered in this workshop, which complements more detailed training found in subsequent Xilinx courses. Design examples and labs are drawn from the Connectivity Targeted Reference Design (TRD). In addition, an IBERT lab is available that highlights use of the MGT. Click For Additional Details Click Here to Test Your Skills Click Here to Register for This Course By learning PCI Express core protocol fundamentals, designers will gain a working knowledge of how PCI Express can be used in their systems. This course focuses on the PCI Express protocol subjects that designers, using the Xilinx PCI Express core, should understand to complete their designs faster and more easily. Students will also be introduced to each Xilinx PCI Express core product and will gain intimate knowledge of how the PCI Express core operates. Click For Additional Details By learning PCI Express core protocol fundamentals, designers will gain a working knowledge of how PCI Express can be used in their systems. This course focuses on the PCI Express protocol subjects that designers, using the Xilinx PCI Express core, should understand to complete their designs faster and more easily. Students will also be introduced to each Xilinx PCI Express core product and will gain intimate knowledge of how the PCI Express core operates. Click For Additional Details Learn how to employ RocketIO GTP and GTX serial transceivers in your Virtex-5 LXT, SXT, FXT, or TXT FPGA design. Understand and utilize the features of the RocketIO transceiver blocks, such as CRC, 8B/10B and 64B/66B encoding, channel bonding, clock correction, and comma detection. Additional topics include use of the Architecture Wizard, synthesis and implementation considerations, board design as it relates to the transceivers, and test and debugging. This course balances lecture modules and practical hands-on labs. Click For Additional Details Click Here to Test Your Skills Click Here to Register for This Course Learn how to employ RocketIO GTP and GTX serial transceivers in your Virtex-5 LXT, SXT, FXT, or TXT FPGA design. Understand and utilize the features of the RocketIO transceiver blocks, such as CRC, 8B/10B and 64B/66B encoding, channel bonding, clock correction, and comma detection. Additional topics include use of the Architecture Wizard, synthesis and implementation considerations, board design as it relates to the transceivers, and test and debugging. This course balances lecture modules and practical hands-on labs. Click For Additional Details Become acquainted with the various solutions that Xilinx offers for Ethernet connectivity. Learn the basics of the Ethernet standard, protocol, and OSI model while applying Xilinx solutions via hands-on laboratory exercises. Perform simulation to understand fundamental principles and obtain the knowledge to assess hardware design considerations and software development requirements. Click For Additional Details Click Here to Register for This Course Become acquainted with the various solutions that Xilinx offers for Ethernet connectivity. Learn the basics of the Ethernet standard, protocol, and OSI model while applying Xilinx solutions via hands-on laboratory exercises. Perform simulation to understand fundamental principles and obtain the knowledge to assess hardware design considerations and software development requirements. Click For Additional Details Learn when and how to apply signal integrity techniques to high-speed interfaces between Xilinx FPGAs and other components. This comprehensive course combines design technique and methodology with relevant background concepts of high-speed bus and clock design, including transmission line termination, loading, and jitter. Click for Additional Details Click Here to Register for This Course Click Here to Test Your Skills Learn when and how to apply signal integrity techniques to high-speed interfaces between Xilinx FPGAs and other components. This comprehensive course combines design technique and methodology with relevant background concepts of high-speed bus and clock design, including transmission line termination, loading, and jitter. Click For Additional Details This course focuses on the fundamentals of the PCI Express® protocol specification. The typical PCIe architecture, including data space, data movement, and the most commonly used Transaction Layer Packets (TLPs) are covered. Interrupts and error handling are also discussed. Click For Additional Details Click Here to Test Your Skills Click Here to Register for This Course This course focuses on the fundamentals of the PCI Express® protocol specification. The typical PCIe architecture, including data space, data movement, and the most commonly used Transaction Layer Packets (TLPs) are covered. Interrupts and error handling are also discussed. Click For Additional Details This course teaches hardware designers who are new to high-speed memory I/O to design a memory interface in Xilinx FPGAs. It introduces designers to the basic concepts of high-speed memory I/O design, implementation, and debugging using Spartan®-6 and Virtex®-6 FPGAs. Additionally, you will learn about the tools available for high-speed memory interface design, implementation, and debugging. Click For Additional Details Click Here to Register for This Course Click Here to Test Your Skills This course teaches hardware designers who are new to high-speed memory I/O to design a memory interface in Xilinx FPGAs. It introduces designers to the basic concepts of high-speed memory I/O design, implementation, and debugging using Spartan®-6 and Virtex®-6 FPGAs. Additionally, you will learn about the tools available for high-speed memory interface design, implementation, and debugging. Click For Additional Details
 
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