Open Position

Design Verification Engineer For The New Generation Of FPGA Chip

Your responsibilities include:

  • verification methodology establishment
  • development of verification environment
  • developing test and functional coverage plans based on device specifications
  • analyzing and debugging simulation failures, as well as analyzing functional coverage results
  • verification progress tracking and close interaction with other teams in order to achieve product implementation milestones.

Qualification and Key requirements:

  • Strong background in digital electronics, ASIC/FPGA
  • Good Knowledge of processor architecture and Systems On Chip
  • UVM – advantage
  • Knowledge of scripting tolls and languages – advantage
  • Formal verification – advantage
  • Knowledge of DDR, PCIe or HMB (High Bandwidth Memory) – advantage
  • Highly motivated, well organized and team player
  • Good knowledge of English language

Benefits:

  • UVM & Project Ramp-up training will be provided by ELSYS
  • Integration program in a professional, young & dynamic team
  • Professional development opportunities
  • Competitive salaries & benefits
  • Compensation package includes also additional health insurance, sport & social activities
  • International work environment

You can find out more about our benefits here.




Growth empowered by passion and expertise. Employee satisfaction and loyalty are achievable only in environments where mutual understanding, respect, and trust exist. The mission of the HR department is to secure and further nurture these values.

Ivana Maričić
HR Manager


Apply for:
Design Verification Engineer For The New Generation Of FPGA Chip



    GRADUATION THESIS LIST

    #TopicDomain
    1Clock domain crossing – issues and how to overcome themDD
    2Scheduling techniques and their implementation for queue servicingDD
    3Functional safety approaches implementation  in digital designDD
    4Temperature sensor IP – Analysis, modeling and verificationAMS
    5Bandgap reference IP – Analysis, modeling and verificationAMS
    6Voltage regulator IP – Analysis, modeling and verificationAMS
    7Internal oscillator IP – Analysis, modeling and verificationAMS
    8Power-on Reset IP – Analysis, modeling and verificationAMS
    9IP verification – MAC merge sublayer IP – MMSL – Link Layer Discovery Protocol control – LLDPDV
    10IP verification – MAC merge sublayer IP – MMSL – MAC RxDV
    11IP verification – MAC merge sublayer IP – MMSL – MAC TxDV
    12SoC integration – 3PIAS ProjekatDD+DV
    13SoC integration – ARM – Cortex M0 platform Integration using ARM SDKDD+DV
    14SoC integration – ARM – Cortex M3 platform Integration using ARM SDKDD+DV
    15SoC Verification – interdisciplinary themes – SW coverage collection and analysisDV
    16SoC Verification – interdisciplinary themes – CPU instructions provided by SV TB instead of reading from Memory; (SV + ARM architecture)DV
    17VIP Development – PCI ExpressDV
    18VIP Development – DDRDV
    19VIP Development – EthernetDV
    20VIP Development – USBDV
    21VIP Development – CSIDV
    22VIP Development – DSIDV
    23VIP Development – UNIPRODV
    24VIP Development – I3CDV
    25VIP Development – SLIMbusDV
    26VIP Development – HDMIDV
    Please note, although thesis are created in collaboration with professors, you need to get final approval by your UNI professor.