Method in an integrated circuit (IC) manufacturing process for identifying and redirecting IC's mis-processed during their manufacture
First Claim
1. A manufacturing process having data for integrated circuit devices manufactured during the process comprising:
- storing data and a substantially unique identification code for each integrated circuit device of the integrated circuit devices at either probe testing of the integrated circuit devices or thereafter, the data indicating a process flow within the manufacturing process for each integrated circuit device of the integrated circuit devices, storing data comprising;
storing the substantially unique identification code of each integrated circuit device of the integrated circuit devices and a die location on an electronically stored wafer map for each integrated circuit device;
reading the substantially unique identification code of each integrated circuit device of the integrated circuit devices for evaluating the data for each integrated circuit device of the integrated circuit devices to the data for manufacturing process data stored for each integrated circuit device for identifying integrated circuit devices having a process flow within the manufacturing process different from the process flow of the data stored of the integrated circuit devices; and
directing the integrated circuit devices identified as having a process flow within the manufacturing process different from the process flow of the data stored of the integrated circuit devices to another process.
5 Assignments
0 Petitions
Accused Products
Abstract
A method of manufacturing IC devices from semiconductor wafers includes providing the wafers and fabricating ICs on the wafers. At probe, a unique fuse ID is stored in each IC, and an electronic wafer map is electronically stored for each wafer indicating the locations of good and bad ICs on the wafer and the fuse IDs of the ICs on the wafer. Each IC is then separated from its wafer to form an IC die, and the IC dice are assembled into IC devices. At the opens/shorts test at the end of assembly, the fuse ID of each IC in each device is automatically retrieved so the wafer map of the IC device may be accessed and evaluated to identify any IC devices containing bad ICs that have accidentally been assembled into IC devices. Any “bad” IC devices are discarded while remaining IC devices continue on to back-end testing.
-
Citations
19 Claims
-
1. A manufacturing process having data for integrated circuit devices manufactured during the process comprising:
-
storing data and a substantially unique identification code for each integrated circuit device of the integrated circuit devices at either probe testing of the integrated circuit devices or thereafter, the data indicating a process flow within the manufacturing process for each integrated circuit device of the integrated circuit devices, storing data comprising; storing the substantially unique identification code of each integrated circuit device of the integrated circuit devices and a die location on an electronically stored wafer map for each integrated circuit device; reading the substantially unique identification code of each integrated circuit device of the integrated circuit devices for evaluating the data for each integrated circuit device of the integrated circuit devices to the data for manufacturing process data stored for each integrated circuit device for identifying integrated circuit devices having a process flow within the manufacturing process different from the process flow of the data stored of the integrated circuit devices; and directing the integrated circuit devices identified as having a process flow within the manufacturing process different from the process flow of the data stored of the integrated circuit devices to another process. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
-
-
14. A method of manufacturing integrated circuit devices using a plurality of semiconductor wafers, each wafer having a plurality of integrated circuit devices thereon comprising:
-
providing integrated circuit devices selected from a group comprising Dynamic Random Access Memory (DRAM) devices, Static Random Access Memory (SRAM) devices, synchronous DRAM (SDRAM) devices, and processor devices; storing a substantially unique identification code in each integrated circuit device of the plurality of integrated circuit devices on each semiconductor wafer of the plurality of semiconductor wafers; storing data and the substantially unique identification code of each integrated circuit device of the plurality of integrated circuit devices indicating each manufacturing process for each integrated circuit device of the plurality of integrated circuit devices at one of probe testing and after probe testing of the plurality of integrated circuit devices; assembling each integrated circuit device of the plurality of integrated circuit devices into an integrated circuit device assembly; reading the substantially unique identification code of each integrated circuit device of the integrated circuit device assemblies; determining for each integrated circuit device of the integrated circuit device assemblies any integrated circuit devices having undergone any manufacturing process different from the indicated manufacturing processes of the stored data for each integrated circuit device; subjecting to further processing the integrated circuit devices of the plurality of integrated circuit devices identified as having undergone a manufacturing process different from the indicated manufacturing processes of its stored data; and back-end testing integrated circuit devices not subjected to further processing. - View Dependent Claims (15, 16, 17, 18)
-
-
19. A Multi-Chip Module manufacturing process using a plurality of integrated circuit devices from at least one semiconductor wafer comprising:
-
storing a substantially unique identification code in each integrated circuit device of the plurality of integrated circuit devices on the semiconductor wafer at one of probe testing and after probe testing; storing data and the substantially unique identification code of each integrated circuit device of the plurality of integrated circuit devices indicating desired manufacturing processes for each integrated circuit device of the plurality of integrated circuit devices; assembling one or more integrated circuit devices of the plurality of integrated circuit devices into each of a plurality of multi-chip modules, the plurality of multi-chip modules selected from a group comprising Single In-Line Memory Modules (SIMM'"'"'s) and Dual In-line Memory Modules (DIMM'"'"'s); reading the substantially unique identification code of each integrated circuit device of the plurality of integrated circuit devices in each of the plurality of multi-chip modules; evaluating data for each integrated circuit device of the plurality of integrated circuit devices in each of the plurality of multi-chip modules identifying any multi-chip modules having integrated circuit devices having undergone a manufacturing process that is different from the desired manufacturing processes; redirecting any multi-chip modules identified as having integrated circuit devices having undergone the manufacturing process that is different from the desired manufacturing processes; and back-end testing any nonredirected multi-chip modules.
-
Specification