PLL Subsystem architectures for SoC design
Sunil Deep maheshwari , Prashant Bhargava & Shreya Singh (Freescale Semiconductor)
EDN (August 21, 2015)
Because of the cornerstone importance of PLLs to an SoC design, this article considers the various challenges in the design of PLL subsystems, and discuss architectural solutions.
The PLL subsystem is expected to drive the clocks of the SoC. Therefore, one needs to make sure that the system is able to recover after an unexpected event occurrence, say, failure of the input clock, malfunctioning of the analog block, etc. Some of the necessary architectural features include:
- In-built Clock Monitor Unit to observe changes in clock frequency.
- Error reporting mechanism
- Back-up clock selection feature to allow switching to the fallback clock.
- Progressive clock switching – in the event of a clock switch-off.
- Security of PLL subsystem
- System level understanding to make the sub-system adaptable to the overall system and working conditions.
Subsequent sections describe these challenges more thoroughly.
To read the full article, click here
Related Semiconductor IP
Related White Papers
- The SoC design: What’s next for NoCs?
- Agile Verification for SoC Design
- EDA in the Cloud Will be Key to Rapid Innovative SoC Design
- Low Power Design in SoC Using Arm IP
Latest White Papers
- QiMeng: Fully Automated Hardware and Software Design for Processor Chip
- RISC-V source class riscv_asm_program_gen, the brain behind assembly instruction generator
- Concealable physical unclonable functions using vertical NAND flash memory
- Ramping Up Open-Source RISC-V Cores: Assessing the Energy Efficiency of Superscalar, Out-of-Order Execution
- Transition Fixes in 3nm Multi-Voltage SoC Design