| Course Name | Price NIS before VAT | November | Brief Description |
| Embedded Open-Source Linux Development | 3780 / 9 | 04-06 | This intermediate-level training provides embedded systems developers with experience in creating an embedded Linux environment on a Xilinx development board using Xilinx embedded tools. The course scenario is the customization of a System on Chip (SoC) design with an embedded operating system (Linux). It describes the use of Xilinx tools to create a GNU tool chain to work with Linux 2.6 from the Xilinx kernel tree. This course also introduces embedded Linux components, environment configurations, application development, network components, and debugging/profiling options for embedded Linux platforms. The course focuses on Linux system development in conjunction with the Xilinx tool flow. |
| SystemVerilog | 5040 / 12 | 09-12 | This comprehensive 4-day hands-on intensive course provides complete and integrated training program. It provides the participants with a deep knowledge of 1800-2005 SystemVerilog. The goal of this course is to fulfill the needs and requirements of engineers wanting to exploit the breadth of SystemVerilog features for both design and verification. |
| FPGA and ISE Design | 2520 / 6 | 16-17 | Use the ISE™ software tools to design and understand Xilinx FPGA architecture, Xilinx design flow, ISE features, Architecture Wizard, Pin and Area Constraint Editor (PACE), design planning, implementation options, and global timing constraints. |
| Embedded Systems Development | 3780 / 9 | 18-20 | Xilinx Field Programmable Gate Array (FPGA) provides a new level of system design capabilities through its MicroBlaze™ soft processor and hard core PowerPC® processor as well as silicon-efficient architectural resources. This course brings experienced FPGA designers up to speed on developing embedded systems using the Embedded Development Kit (EDK). The basic features and capabilities of the Xilinx MicroBlaze soft processor and the PowerPC processor are also included in the lectures and labs. These hands-on labs are plentiful and provide personal experience with the development, debugging, and simulation of an embedded system. |
| Advanced FPGA Implementation | 3780 / 9 | 23-25 | Advanced FPGA Implementation tackles the most sophisticated aspects of the ISE tool suite and Xilinx hardware. Eight labs provide hands-on experience in this two-day course and cover Synplicity’s Synplify, Mentor’s Precision, and the Xilinx XST tools. This course requires the Fundamentals of FPGA Design and Designing for Performance courses as prerequisites. An intermediate knowledge of Verilog or VHDL is strongly recommended, as is at least sixMonths’ design experience with Xilinx tools and FPGAs. The lecture material in this course covers the ISE software tools and the Virtex-II and Virtex-4 FPGAs. |
| Designing with PlanAhead | 2520 / 6 | 26-27 | Learn to increase design performance and achieve repeatable results by using the PlanAhead software tool. Topics include: a product overview; synthesis and project tips, design analysis, creating a floorplan, improving performance, experimenting with implementation options, incremental methodology, and block-based IP design. |
| Signal Integrity and Board Design | 5040 / 12 | 30 | The 3-day workshop “Signal Integrity and Board Design” is aimed at developers who want to implement high-speed interfaces between a XILINX FPGA and external semiconductor components and who want to design complex high-speed FPGA at board level. This Workshop is designed for developers who not only design FPGAs but also systems and the layout. |