with their job as may be requested. Creation of user guides and manuals to the train CAE team members. Essential Skills Required: Proficiency in programming language Python, VB, Java, Simulink, Matlab etc. Good understanding of CAD software 3DX CATIA MS Excel. Ability to adapt/understand new technology areas Communication skills. Desirable Skills: Understanding of propulsion systems Understanding of More ❯
with their job as may be requested. Creation of user guides and manuals to the train CAE team members. Essential Skills Required: Proficiency in programming language Python, VB, Java, Simulink, Matlab etc. Good understanding of CAD software 3DX CATIA MS Excel. Ability to adapt/understand new technology areas Communication skills. Desirable Skills: Understanding of propulsion systems Understanding of More ❯
with their job as may be requested. Creation of user guides and manuals to the train CAE team members. Essential Skills Required: Proficiency in programming language Python, VB, Java, Simulink, Matlab etc. Good understanding of CAD software 3DX CATIA MS Excel. Ability to adapt/understand new technology areas Communication skills. Desirable Skills: Understanding of propulsion systems Understanding of More ❯
with their job as may be requested. Creation of user guides and manuals to the train CAE team members. Essential Skills Required: Proficiency in programming language Python, VB, Java, Simulink, Matlab etc. Good understanding of CAD software 3DX CATIA MS Excel. Ability to adapt/understand new technology areas Communication skills. Desirable Skills: Understanding of propulsion systems Understanding of More ❯
and optimize workflows. Develop and deliver process training materials and user guides. Collaborate with engineers, analysts, and model builders on multidisciplinary projects. Essential Skills: Proficiency in Python, VB, Java, Simulink, or Matlab. Strong understanding of CAD software, particularly 3DX and CATIA. Excellent communication and adaptability skills. If you are passionate about driving innovation in the automotive industry through process More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
Barrow-In-Furness, Cumbria, North West, United Kingdom Hybrid / WFH Options
Outsource UK lTD
preferably C#. Experience with embedded RTOS or Bare Metal operating systems Knowledge of safety standards (DEF STAN 00-056, IEC 61508) Knowledge of electronic circuits Experience using Matlab or Simulink If you would like to be considered for this role please don't hesitate to click apply or call Levi Jackson on 0161 6949192 for more information. About BAE More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
latest technologies from top FPGA vendors, and collaborate closely with multi-disciplinary teams across engineering domains. What You'll Be Doing Designing and implementing complex FPGA architectures using VHDL , Simulink , and related tools Targeting devices from leading vendors including Xilinx , Intel , and Microsemi Developing verification environments and testbenches using VHDL , SystemVerilog , and UVM methodologies Utilizing industry-standard toolsets such More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
of working at all levels of the systems engineering lifecycle and be able to develop and communicate clear and concise requirements, defining and modelling system functionality and behaviour using Simulink, Cameo or similar, as well as understand the principles and advantages of Requirements Management, An understanding of the physical, functional and performance challenges of developing safety critical Airborne Vehicle More ❯
of developing RTL design for digital electronics systems for Xilinx device architectures (or AMD/Lattice) using VHDL Experience in FPGA-SoC-implementation of algorithms developed in MATLAB/Simulink (algorithm development out of scope) Strong verification expertise in OSVVM/UVVM (or UVM) methodologies and test bench architecture Familiar with technologies such as AXI, PCIe, Ethernet, OCP, Wishbone More ❯
of developing RTL design for digital electronics systems for Xilinx device architectures (or AMD/Lattice) using VHDL Experience in FPGA-SoC-implementation of algorithms developed in MATLAB/Simulink (algorithm development out of scope) Strong verification expertise in OSVVM/UVVM (or UVM) methodologies and test bench architecture Familiar with technologies such as AXI, PCIe, Ethernet, OCP, Wishbone More ❯
of developing RTL design for digital electronics systems for Xilinx device architectures (or AMD/Lattice) using VHDL Experience in FPGA-SoC-implementation of algorithms developed in MATLAB/Simulink (algorithm development out of scope) Strong verification expertise in OSVVM/UVVM (or UVM) methodologies and test bench architecture Familiar with technologies such as AXI, PCIe, Ethernet, OCP, Wishbone More ❯
