To overcome bottlenecks due to sequential processing in embedded systems FPGAs provide massive parallelism and application fitted data path. Xilinx supports such heterogenous FPGA and CPU designs with the Vitis Unifie...
Scripting the hardware design flow is now a very essential need and there are many advantages seen for the hardware design flow: Reproducibility of p&r runs, reusability for the IP repositories, AMD tool release manag...
Learn how to apply UltraFast Design Methodology timing closure techniques and to achieve timing closure for a given design. The emphasis of this course is on:Applying initial design checks and reviewing timing summary...
Learn how to improve design speed and reliability by using the UltraFast™ Design Methodology and the Vivado™ Design Suite. The focus is on:Optimizing system reset design and synchronization circuits Employing best pra...
Provides an introduction to SystemVerilog constructs for verification.This course covers:Writing testbenches to verify a design under test (DUT) utilizing the constructs available in SystemVerilogReviewing object-orie...
With Versal, Xilinx offers the first highly integrated chip series in the new ACAP family -Adaptive Compute Acceleration Platform. The Versal Chips have a heterogeneous architecture with MPSoC, FPGA, PCIe Connectivity...
This is Session 6 in the Versal Adopter Series -Topics Include:Utilizing and optimizing programmable logicCLB structureMemory resources, LUT-RAM, BRAM, URAMUsing and optimizing DSP58 slicesPros and cons of HDL coding ...
This is Session 5 in the Versal Adopter Series - which covers levering features and capabilities of the Versal Gen 2 devices.Topics Include:Describe the different compute resources available in the AMD Versal Gen 2 So...
