Summary
Do you have a passion for invention and self-challenge? Do you thrive on pushing the limits of what’s considered feasible? As part of an extraordinary modem team, you’ll craft sophisticated u0026 pioneering embedded firmware that deliver more performance in our products than ever before. You’ll work across subject areas to transform improved hardware elements into a single, integrated design. Join us, and you’ll help us innovate new wireless systems technologies that continually outperform the previous iterations! By collaborating with other product development groups across Apple, you’ll push the industry boundaries of what wireless systems can do and improve the product experience for our customers across the world.
Description
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Implement key 3GPP protocols and control/data path processing algorithms with very tight time, latency and energy budgets by interfacing to specialized cellular ASIC hardware. nn- Examples of processing include 3GPP channels and procedures such as PDCCH, PDSCH,PBCH,PUCCH, PUSCH, PRACH, UL/DL HARQ, Tracking loops.nn- Examples of 3GPP algorithmic areas include:nn - Channel Estimationnn - Channel State Feedbacknn - Interference Cancellationnn - Cell Search and Measurementnn - Beam Measurementnn- Work with systems engineers to refine signal processing algorithms for efficient firmware/hardware execution nn- Work with silicon designers to define HW interfaces, processors, bus, DMA, accelerator, and memory subsystems. nn- Specify, design, and implement the firmware architecture of an innovative mobile wireless communications system. nn- Assist in the development of pre-silicon emulation systems/virtual platforms and use them for pre-silicon FW design and HW verification. nn- Evaluate and implement pioneering tools for build, formal verification and test.nn- Define methodologies and best practices.
Minimum Qualifications
Experience with hardware control for physical layer4G/5G data path processingnnUnderstanding of 5G and 4G 3GPP protocolsnnExperience implementing digital signal processing algorithms using special purpose digital signal processing HW.nnStrong understanding of linear algebra and digital signal processing principles.nnDeep understanding of software engineering principles, and core computer science fundamentals.nnFundamental facility with C and C++, compilers, build and source code control tools.nnSignificant experience with memory constrained Real Time Operating Systems (RTOS) and concurrent programming.nnSolid understanding of computer architecture with particular emphasis on the HW/SW interfaces of high speed communication subsystems.nnExperience with silicon prototyping, emulation systems, and virtual platforms.nnProficiency debugging embedded software systems. Familiarity with UARTs, JTAG, and oscilloscopes.nnSome mainstream OS application level development and Python or Perl scripting experience.
Preferred Qualifications
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Bachelor’s degree in electrical engineering, electronics and telecommunications, computer engineering or computer science is required.