Yield Improvement Sample Clauses

Yield Improvement. Risk wafers for yield improvement will be ordered and invoiced by wafer level pricing. FOUNDRY will accept responsibility for maintaining it’s process within the prescribed limits of the electrical rules and physical layout rules as documented in FOUNDRY’s design rules, including pre-approved design rule waivers for custom IP, and responsibility for systemic defects, for example, (cd’s, film thickness, implant doses, etc.) as evaluated by the PCM data and random defects (particles) CUSTOMER will accept responsibility for the design meeting FOUNDRY’S electrical and physical design rules per specifications listed in Exhibit B.

Yield Improvement. Fujitsu shall perform yield improvement activities when necessary to improve Die yields to equal or exceed agreed-upon NDWs, and shall bear the cost associated with such Die yield improvement. The sole liability of Fujitsu for failure to attain the Agreed Die Yield in any Quarter shall be the Wafer Price Adjustment provided for in Section 6.2.1 below.

Yield Improvement. ‌ The process models calculate a total heat and mass balance as a function of time and key process parameters. The primary improvement in yield is achieved by using the melt superheat more effectively. By adding cooling metal continuously during the refining process, the remelting capacity can be increased from 1 percent to 5 percent of the initial tapped silicon melt under normal process conditions. During this project, Elkem has already utilized some of this potential by increasing from 1 to 2 % at selected furnaces. Further improvements can only be made by investments in equipment and technology for adding cooling metal. A typical silicon furnace produces 25 000 tons/year. Using the process control methods developed in the RECOBA-project, the re-melting potential during the refining process for a single furnace can be increased from 250 tons/year to 1250 tons/year. The amount of silicon delivered to the casting process (furnace process + refining process) totals 26 250 tons/year for a typical Elkem silicon furnace.

Yield Improvement. ‌ As described above, the diminished temperature losses to be compensated by primary energy input at the BOF lead to a lower BOF tapping temperature. This in turn allows to lower the iron losses by about 1.2 kg per ton of liquid steel, thus leading to a yield improvement of about 0.12 %. In addition, due to the lower BOF tapping temperature and the lower iron oxide content in the BOF slag, the consumption of alloy and refractory materials can probably be diminished.

Yield Improvement. ‌ Process modeling as developed in RECOBA (kinetic, morphology, reactor periphery) gives more insight to the process by delivering total heat and mass balance, product quality and concentrations of monomers as a function of time and key process parameters. A major improvement in the production is estimated to be achieved by reduction in batch time by using the energy removal efficiently and optimally. Estimation of online parameters, such as heat transfer coefficient, help to guide the recipe in accordance with process constraints as well as product quality constraints. By optimally operating the process at recipe based on process conditions and variables (rather than fixed time), the batch time can be reduced by 5-7% of the normal batch. Yield improvements like these are important for the European industry to be able to compete with producers in other regions in the world. The European annual production of dispersions is currently estimated to be about

Yield Improvement. The parties agree to work together to improve yield to above **. SANYO will provide product and process engineering support and CAMD will assist as requested. In order to improve the yield, CAMD shall measure the product delivered by SANYO and report the measurement result to SANYO within one month from such delivery.