analysis and workload characterization, with hands-on experience in methodologies for system-level architectural exploration. Experience in developing using dynamic binary instrumentation infrastructures like QEMU or DynamoRIO or x86 PIN. Proficiency in C/C++, with a solid understanding of Assembly Language. Experience with Python and other scripting languages to More ❯
Open Source Development experience. Experience in Unit Testing. Continuous Integration. ARM Fast Models. Server Architecture (RAS, Manageability). Top Preferred Skills: SystemC TLM or QEMU Modern C++ ARM Architecture (CPU, GIC, CoreSight Debug) Firmware and/or Device Driver Development and Debug Git Revision Control Principal Duties and Responsibilities: Leverage More ❯
contemporary program analysis methodologies and techniques (static and dynamic). Relevant tools include Ghidra, Ida, Binary Ninja, Radare, Angr, debuggers (GDB, winDBG), emulation tools (Qemu), fuzzers (AFL++), etc. Experience with techniques that prevent reverse engineering and employ obfuscation or diversification. Proven backgroundin researching and exploiting software vulnerabilities. Knowledgeof secure coding More ❯
and software – hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU etc.) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
Familiarity with the Linux environment, command line, remote shell, scripting and collaboration tools including Kernel internals. Strong understanding of established virtualization frameworks like KVM, QEMU, Xen or Virtio. Familiarity with open-source projects such as Linux Kernel, TF-A, UEFI EDK II and OpenBMC. You understand the overall architecture of … Linux/Kernel/Device Driver/Virtualization/KVM/Virtio/RTOS/FreeRTOS/QNX/Agile/Embedded Systems/QEMU/Xen/C/C++/Python/Bootloaders By applying to this role you understand that we may collect your personal data and More ❯
Familiarity with the Linux environment, command line, remote shell, scripting and collaboration tools including Kernel internals. Strong understanding of established virtualization frameworks like KVM, QEMU, Xen or Virtio. Familiarity with open-source projects such as Linux Kernel, TF-A, UEFI EDK II and OpenBMC. You understand the overall architecture of … Linux/Kernel/Device Driver/Virtualization/KVM/Virtio/RTOS/FreeRTOS/QNX/Agile/Embedded Systems/QEMU/Xen/C/C++/Python/Bootloaders By applying to this role you understand that we may collect your personal data and More ❯
Familiarity with the Linux environment, command line, remote shell, scripting and collaboration tools including Kernel internals. Strong understanding of established virtualization frameworks like KVM, QEMU, Xen or Virtio. Familiarity with open-source projects such as Linux Kernel, TF-A, UEFI EDK II and OpenBMC. You understand the overall architecture of … Linux/Kernel/Device Driver/Virtualization/KVM/Virtio/RTOS/FreeRTOS/QNX/Agile/Embedded Systems/QEMU/Xen/C/C++/Python/Bootloaders By applying to this role you understand that we may collect your personal data and More ❯
Familiarity with the Linux environment, command line, remote shell, scripting and collaboration tools including Kernel internals. Strong understanding of established virtualization frameworks like KVM, QEMU, Xen or Virtio. Familiarity with open-source projects such as Linux Kernel, TF-A, UEFI EDK II and OpenBMC. You understand the overall architecture of … Linux/Kernel/Device Driver/Virtualization/KVM/Virtio/RTOS/FreeRTOS/QNX/Agile/Embedded Systems/QEMU/Xen/C/C++/Python/Bootloaders By applying to this role you understand that we may collect your personal data and More ❯
and software – hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU etc.) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
and software – hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU etc.) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
and software – hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU etc.) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes and system performance modelling and simulation tools (such as gem5, QEMU) is required, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies is a plus. Offers include a More ❯
performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes and system performance modelling and simulation tools (such as gem5, QEMU) is required, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies is a plus. The position offers More ❯
chip performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes and system performance modelling and simulation tools (e.g., gem5, QEMU) is required, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would be advantageous. On offer is More ❯
chip performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes, system performance modelling, and simulation tools (such as gem5, QEMU) is essential, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would be advantageous. Offers include a More ❯
performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes and system performance modelling and simulation tools (such as gem5, QEMU) is essential, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies is a plus. On offer is More ❯
performance, modelling, simulation, and software-hardware optimisation. A deep understanding of chip design processes and system performance modelling and simulation tools (such as gem5, QEMU) is required, with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would be advantageous. On offer is More ❯
experience in chip performance, modelling, simulation, and software-hardware optimisation. A strong background in chip design processes and system performance modelling tools (e.g., gem5, QEMU) is essential, along with experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies is a plus. Offering a competitive More ❯
hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (such as gem5, QEMU) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer, you More ❯
and software-hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU, etc.), with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
and software-hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU, etc.), with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
and software – hardware optimisation. Your background will also include a deep understanding of chip design processes and system performance modelling and simulation tools (gem5, QEMU etc.) with some experience in developing and maintaining gem5 simulators. Exposure to software/hardware co-design methodologies would also be a bonus. On offer More ❯
interface protocols. x86, ARM or GPU architecture, drivers, and applications. Linux and/or Windows kernel debugging. Functional modeling, architecture simulation, or hypervisor development. QEMU, VirtualBox, or SIMICS. #LI-HS3 #LI-HYBRID Benefits offered are described: AMD benefits at a glance. AMD does not accept unsolicited resumes from headhunters, recruitment … interface protocols. x86, ARM or GPU architecture, drivers, and applications. Linux and/or Windows kernel debugging. Functional modeling, architecture simulation, or hypervisor development. QEMU, VirtualBox, or SIMICS. #LI-HS3 #LI-HYBRIDBenefits offered are described: AMD benefits at a glance. AMD does not accept unsolicited resumes from headhunters, recruitment agencies More ❯
architecture Experience in developing and using performance simulators like GEM5 (O3 model), Sniper or others Experience in developing using dynamic binary instrumentation infrastructures like QEMU or DynamoRIO or x86 PIN. Proficient in benchmark analysis and characterization. Skilled in performance projection and architectural exploration using SoC simulators. Excellent collaboration and interpersonal More ❯
