Calculate first pass yield — the percentage of units that pass inspection without rework. Measure true process efficiency in manufacturing.
First pass yield (FPY) measures the percentage of units that complete a process step correctly on the first attempt — without any rework, repair, or re-inspection. Unlike final yield, which counts all units that eventually ship (including reworked ones), FPY reveals the true efficiency of your process.
FPY is a critical lean manufacturing metric because rework hides waste. A process with 95% final yield but only 80% first pass yield is spending significant resources fixing defective units. By tracking FPY, manufacturers can quantify hidden factory costs, identify process steps with chronic quality problems, and prioritize improvement efforts where they matter most.
This calculator computes FPY from total units started and units that pass without rework. It also shows the rework rate and the number of units requiring intervention, giving you a complete picture of process quality.
By calculating this metric accurately, production managers gain actionable insights that drive continuous improvement efforts and strengthen overall operational performance across the shop floor.
FPY exposes the hidden cost of rework that final yield conceals. By measuring how many units are right the first time, you identify the true capability of your processes and target improvements that eliminate waste rather than masking it. Precise quantification supports benchmarking against industry standards and internal targets, driving accountability and continuous improvement throughout the organization.
First Pass Yield (%) = (Good Units without Rework / Total Units Started) × 100 Rework Rate (%) = 100 − FPY Reworked Units = Total Units Started − Good Units
Result: 92.0% FPY
Out of 1,000 units started, 920 passed inspection on the first attempt. FPY = 920 / 1,000 × 100 = 92.0%. The rework rate is 8.0%, meaning 80 units required some form of rework.
Final yield often looks impressive because rework converts defective units into shippable products. But rework consumes resources — labor, time, materials, and equipment — that could be used for new production. FPY reveals how much of your capacity is productive versus corrective.
Multiply the rework rate by the average rework cost per unit to estimate the hidden factory cost. For example, if FPY is 90% on 10,000 units and each rework costs $15, the hidden cost is 1,000 × $15 = $15,000 per period.
FPY tends to drop before customer complaints rise. A declining FPY trend is an early warning that process capability is eroding, giving you time to investigate and correct before defects reach the customer.
FPY counts only units that pass without rework. Final yield includes units that were reworked and subsequently passed. FPY is always less than or equal to final yield and provides a truer picture of process capability.
A good FPY depends on the industry and process complexity. In electronics assembly, 95%+ is typical. In complex machining, 90%+ may be acceptable. World-class manufacturers target 99%+ FPY.
Rolled throughput yield (RTY) is the product of FPY values across all sequential process steps. If three steps have 95%, 90%, and 98% FPY respectively, RTY = 0.95 × 0.90 × 0.98 = 83.8%.
Yes. Scrapped units failed on the first pass and could not be reworked. They are counted against total units started but are not included in the good units count, lowering FPY.
Every unit requiring rework adds labor, materials, and cycle time. If FPY is 90%, roughly 10% of production capacity is consumed by rework. Improving FPY by even a few percentage points can significantly reduce costs.
Yes. FPY applies to any process where work might require correction — software testing, claims processing, order fulfillment, etc. It measures the right-first-time rate regardless of industry.