Be part of the revolution

Together, we revolutionize space, automotive, robotics (including UAV, UGV), IoT and aviation industries with cutting-edge innovations in ultra-reliability electronics that protect lives in all operating environment. The work we do is immensely challenging but satisfying. Our people are not afraid to question the status quo, enter unchartered waters to solve meaningful problems and push the boundaries of science.

If there is fire in your belly to make an outsized impact in the emerging industries, join our team!

Openings

Layout
Engineer

Layout Engineer

About the Job

  • Develop digital and analog library cells in various technologies (e.g. CMOS & SOI)
  • Layout digital cells for various trade-offs (including speed, power, area, reliability)
  • Layout analogue circuits and IO circuits
  • Characterize digital cell cells for timing and power analyses
  • Construct test structures for validating various digital and analogue cells
  • Analyse the reliability issues (e.g. soft-errors) for various digital cells
  • Support the front-end team for System-on-Chip (SoC) integration

Minimum Qualifications

  • Possess at least a bachelor’s degree or equivalent in Electrical & Electronic Engineering or any related field with background on Integrated Circuit Design (both Analog and Digital)
  • Knowledge in Electronic Design Automation (EDA) tools (e.g. Cadence, Synopsys, Silvaco)
  • Knowledge in cell characterization tools (e.g. Liberate or SiliconSmart or Viola)
  • Knowledge in Application Specific Integrated Circuit (ASIC) designs (full custom design methodology)
  • Knowledge in digital circuit reliability issues (e.g. latch-up, soft error rates, aging, threshold voltage shift, etc.)
  • Experience in digital foundation library cell development (e.g. combinational cells, sequential logic cell, memory cells, IOs)
  • Experience in library cell characterization (e.g. understanding in various timing and power models)
  • Experience on circuit testing
  • Proficiency in English

Test
Engineer 01

Test Engineer 01

About the Job

  • Conduct Integrated Circuit (IC) and PCB electronic hardware test.
  • Work with the design team to define electronics FCT & EOL tester requirements and specifications:
    • Own tester architecture and test strategies that address efficient defect detection, manufacturing process flow, and cost.
    • Ensure test requirements that are clear, achievable and appropriate for production testing.
    • Ensure defined robust and supportable equipment solutions that meet requirements.
    • Ensure developed and execute verification plans and acceptance test procedures.
    • Ensure robustness of the tester in thr manufacturing environment.
  • Develop Proof of Principle tester to assist in-house electronics solution verification and product validation test.
  • Provide detailed specifications for proposed solutions including time and scope involved.
  • Define clear goals for all aspects of a product test and develop steps for their proper execution

Minimum Qualifications

  • Polytechnic graduates and above whose major is in electronic hardware
  • Experienced with ICs and electronic PCBs
  • Hands-on testing work including PCB design, soldering, debugging with coding
  • Experienced with testing PCBs including analog, digital and power modules
  • Experienced with analogue and digital measurement techniques and testing instruments
  • Experienced with power management ICs
  • Experienced with Xilinx’s FPGA
  • Self-motivated and self-learner
  • Has the desire to learn IC designs

Test
Engineer 02

Test Engineer 02

About the Job

  • Conduct Integrated Circuit (IC) and Printed Circuit Board (PCB) electronic hardware test.
  • Development of test protocols/test programs using FPGA means and/or microcontrollers.
  • Development of test jigs (including soldering) to support prototype testing to meet the different test requirements for ICs, or circuits and systems.
  • Debugging of the test jigs.
  • Development of the automation process to link-up the test program and test jigs.

Minimum Qualifications

  • At least a poly degree in an engineering discipline preferably in electrical and electronics engineering
  • At least 2 years of experience in the testing in circuits and systems
  • Possess programming experience (e.g., FPGA programming, microcontroller programming, C programming or Python programming)
  • Preferably with experience in reliability/qualification workflow.
  • Is a good team player that can work well in a team to solve problems to deliver solutions to meet market needs

Why ZES?

ZES digital solutions can achieve ultra-low soft-error (ULSE) (such as ~10 FITs, i.e., ~10 errors per billion hours of operation) with low Power x Delay x Area to ensure system data integrity. A low power solution increases operating life and reliability of the system, while low delay increases processing capability and small area offers more utilization per unit area.

ZES can customize the library cells to achieve the different ULSE requirements for autonomous vehicles, robotics, UGV, UAV and so forth.

Why ZES?

ZES digital solutions can achieve ultra-low soft-error (ULSE) (such as ~10 FITs, i.e., ~10 errors per billion hours of operation) with low Power x Delay x Area to ensure system data integrity. A low power solution increases operating life and reliability of the system, while low delay increases processing capability and small area offers more utilization per unit area.

ZES can customize the library cells to achieve the different ULSE requirements for autonomous vehicles, robotics, UGV, UAV and so forth.

Why ZES?

ZES digital solutions can achieve ultra-low soft-error (ULSE) (such as ~10 FITs, i.e., ~10 errors per billion hours of operation) with low Power x Delay x Area to ensure system data integrity. A low power solution increases operating life and reliability of the system, while low delay increases processing capability and small area offers more utilization per unit area.

ZES can customize the library cells to achieve the different ULSE requirements for autonomous vehicles, robotics, UGV, UAV and so forth.

Why ZES?

ZES power management solutions achieve more than 90% power efficiency during active and sleep modes. ZES solution is the first* in the market to incorporate innate redundancy to ensure power reliability yet remain low cost.

Why ZES?

ZES disrupts the space industry with Radiation Hardened by Design (RHBD) solutions that provide power reliability and data integrity to COTS ICs that allow satellite and space electronics to achieve longer lifetime, higher functionalities cum intelligence and better power reliability.

High Performance Commercial Off The Shelves (COTS) IC

ZES also offers characterization and qualification testing plus IC design advisory services to satellite, payload and space electronics manufacturers to understand and take steps to overcome the vulnerability of their systems.

Why ZES?

ZES disrupts the space industry with Radiation Hardened by Design (RHBD) solutions that provide power reliability and data integrity to COTS ICs that allow satellite and space electronics to achieve longer lifetime, higher functionalities cum intelligence and better power reliability.

High Performance Commercial Off The Shelves (COTS) IC

ZES also offers characterization and qualification testing plus IC design advisory services to satellite, payload and space electronics manufacturers to understand and take steps to overcome the vulnerability of their systems.