Why did AMD move towards multi-chip CPUs with Zen? The simple answer is economics. Making products with larger and larger die sizes results in an exponential increase in product cost, not due to the larger amounts of silicon that are used, but at the steep rise in the failure rate of manufactured silicon.AMD's approach with Zen was designed to make higher performance/core count processors more affordable, shaking up both the consumer and server sides of the PC industry. This trend is set to continue with the company's 7nm Zen 2 architecture, which has been designed to deal with some of the downsides of AMD's original Zeppelin (EPYC) multi-chip CPU designs.A report from Bits and Chips has claimed that AMD's 7nm Zen 2 dies are being manufactured with a yield rate of around 70%, which isn't bad for a new processor on a leading-edge process node. While AMD's 14nm Zen dies had higher yields than this, it must be remembered that we are much earlier in 7nm's life cycle than AMD's Zen products were for 14nm. Yield rates will improve as TSMC's 7nm process matures.For context, it is also claimed that the yield rate for Intel's 28-core CPU dies have a yield rate of 35%, a data point which partially explains why Intel's high core count processors cost so much. This positions AMD to make some serious profit from their high core count Zen 2 EPYC offerings, as their higher yield rate lowers the cost/chip of their CPU manufacturing, significantly increasing their profit margins.AMD's cost-effective CPU designs will be leveraged to deliver increased value for their customers and higher margins for AMD as a company, benefiting AMD as a manufacturer and customers due to the introduction on high-value products.