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Chip assembly challenges and solutionsShankar Krishnamoorthy, Sierra Design 01/23/2006 9:00 AM EST, EE Times At nanometer technologies, IC physical design teams are designing multi-million gate systems-on-chip (SoCs) with very complex functionality including different processor cores, memory blocks, soft and hard intellectual property (IP) blocks, and analog circuitry on a single chip. In addition to addressing the sheer size and complexity, designers also need to deal with variations in design modes, environmental conditions, manufacturing steps, and device and interconnect behavior. In recent years, hierarchical design flows have gained traction for the implementation of multi-million gate SoCs. However, with increasing design sizes, these flows using the current generation of physical implementation tools are severely strained to meet the chip specifications with aggressive schedules. Engineers have historically used a hierarchical chip design methodology (breaking the chip into pieces or blocks) to extend the capacity of design-automation tools, improve tool runtimes, and contain last minute design changes. A hierarchical design flow typically includes:
Any wrong decisions or assumptions made during chip planning and block implementation are exposed at this stage, which typically leads to unnecessary iterations and missed market opportunities. Due to the late surprises in chip assembly, design teams have rushed to incorporate chip assembly as part of concurrent engineering with the block implementation. In this article we will review chip assembly challenges and discuss the requirements of an implementation system that comprehensively addresses all the issues.
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