9 of 9 Permanent Altera Jobs

Qualifications: Bachelor's or Master's in Electrical/Computer Engineering. 8-15 years of digital design experience with FPGA projects. Proficiency in VHDL and FPGA design tools (Xilinx, Altera). Experience with PCIe, Ethernet (1G/10G), TSN, and system-level design/verification. Strong knowledge of FPGA architectures, high-speed design, and DO-254 certification processes. Excellent More ❯

software co-design and debugging tools (Oscilloscope, JTAG, Signal Analyzer). • Ability to work in a fast-paced environment and manage multiple projects effectively. Preferred Qualifications: • Experience with Xilinx, Altera (Intel FPGA), or Lattice FPGA architectures. • Knowledge of C/C++, Python for FPGA development. • Understanding of high-performance computing, signal processing, and networking applications. • Familiarity with System Verilog More ❯

Essential Skills & Experience: Hands-on FPGA design experience with VHDL or Verilog. Proficiency with development environments such as Quartus Prime Pro, ModelSim, Vivado, or ISE. Familiarity with Xilinx, Intel (Altera), and Microsemi (Actel) toolchains. Solid knowledge of version control systems and configuration management practices. Independent verification expertise and technical risk mitigation. Experience with high-speed serial interfaces and embedded More ❯

logic using FPGA devices. ASIC design experience is also relevant. Familiarity with simulation, synthesis, and placement software tools such as ModelSim, Synplicity, Xilinx Vivado/ISE, and/or Altera Quartus development toolsets More ❯

in FPGA design with a strong focus on VHDL Solid understanding of digital design principles, simulation tools, and synthesis flow Experience with major FPGA platforms (e.g., Xilinx, Intel/Altera, Microsemi) Familiarity with version control systems and scripting (e.g., Tcl, Python) Competent in debugging and troubleshooting FPGA designs in a lab environment Experience in communications systems (wireless, optical, satellite More ❯

in FPGA design with a strong focus on VHDL Solid understanding of digital design principles, simulation tools, and synthesis flow Experience with major FPGA platforms (e.g., Xilinx, Intel/Altera, Microsemi) Familiarity with version control systems and scripting (e.g., Tcl, Python) Competent in debugging and troubleshooting FPGA designs in a lab environment Experience in communications systems (wireless, optical, satellite More ❯

integrated circuit security analysis and recommendations/guidelines. Experience with microelectronics. That includes experience with ASIC design tools such as Cadence or Synopsis or FPGA design tools such as Altera Quartus or Xilinx Vivado. There are many types of circuits or products that use ASICs and FPGAs, so anything that involves the design of those devices would be desirable More ❯

test. Required skills: -VHDL/Verilog programming for FPGA development -Proficiency with common hardware lab test equipment -Experience using industry standard FPGA synthesis tools, such as Xilinx Vivado or Altera Quartus -Experience with industry standard HDL simulators and functional verification tools -Experience with high-speed SerDes interfaces -Experience with high-speed memory subsystems -Experience with real-time C++ code More ❯

these opportunities. Areas of expected technical experience or education include: • Expertise in simulation, synthesis, and placement software tools such as ModelSim, Synplicity, Xilinx Vivado/ISE and/or Altera Quartus development tool sets. • Expertise in laboratory debug techniques using signal generators, digital oscilloscopes, logic analyzers, BERTS, and other complex measurement devices. • Expertise with timing closure in large FPGAs. … Electronically steered antennas. • Experience with systems in high doppler effects. Preferred Skills: • Simulation, synthesis, and placement software tools such as ModelSim, Synplicity, Xilinx Vivado/ISE and/or Altera Quartus development tool sets. • Laboratory debug techniques using signal generators, digital oscilloscopes, logic analyzers, BERTS, and other complex measurement devices. • Implementation of complex Digital Signal Processing (DSP) algorithms in More ❯