College students; College teachers; Computation laboratories; Digital computers; Education; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Student life; Technology; University of Santa Clara;
Black-and-white photograph of faculty member Henry Nettesheim and graduate student Gus Burzio working on the RAMAC 305A digital computer, circa 1963. The RAMAC 305A with a RAMAC 350 storage device, made by IBM, was one of the earliest computers.
Electronic industries; Integrated services digital networks; Intel microprocessors; Magazines; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Cover of the May/June 1984 issue of Intel's magazine "Solutions" promoting Intel's ISDN (Integrated Services Digital Network) capabilities.
Analog computers; College students; College teachers; Computation laboratories; Education; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Student life; Sullivan Engineering Center; Technology; University of Santa...
Black-and-white photograph of students and faculty working in early Computer Lab in Sullivan Engineering Center, circa 1965. Electrical Engineering faculty member Henry McKenna works on a digital computer with one of the first female engineering...
Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Semiconductor wafers; Technicians; Technology;
Color photograph of a basic container housing 300mm wafers in the automated fabrication (Fab) process.
Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Semiconductor wafers; Technicians; Technology;
Color photograph of Intel technicians monitoring the wafers' progress through the 300mm fabrication plant, (Fab) using automated measurement tools and strict quality standards.
Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Semiconductor wafers; Technicians; Technology; Vertical diffusion furnaces;
Color photograph of a technician checking wafers processing in a vertical diffusion furnace, one of the many tools through which wafers must pass as they go through the hundreds of steps that make up the manufacturing process.
Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Semiconductor wafers; Technicians; Technology;
Color photograph of Intel technician monitoring wafers in an automated wet etch tool. The process cleans the wafers of any excess process chemicals or contamination.
Clean rooms; Electronic industries; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technicians; Technology;
Color photograph of a clean room floor. Clean air continuously flows from every pore of the ceiling and through the holes in the floor of the fabrication (Fab) plant. All of the air in the clean room or fab is replaced several times every minute.
Automated Material Handling System; Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Color photograph of an automated wafer movement system within an Intel 300mm wafer fabrication (Fab) plant.
Clean rooms; Electronic industries; Intel microprocessors; Manufacturing; People; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technicians; Technology;
Color photograph of an Intel technician holding a 300mm wafer. Each square on the wafer is called a "die" and each microprocessor will eventually become the "brain" of a PC system.
Electronic industries; Memory chip packages; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged black-and-white photograph of the Intel® Schottky 3101 Bipolar Ram Memory chip package. The 3101 is the world's first solid state memory device and Intel's first product. The 3101 used Schottky barrier diode, bipolar technology. The...
Electronic industries; Intel microprocessors; Memory dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the 3-volt Intel® Advance Boot Block Flash Memory Die. The Intel® Advanced+ Boot Block Flash memory represents a feature-rich solution for low power applications. Intel Advanced+ Boot Block Flash memory devices...
Electronic industries; Intel microprocessors; Microprocessor packages; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Pentium® 4 processor packages. Level Two cache: 256 KB Advanced Transfer Cache (Integrated). Processor Package Style: PGA423. System Bus Speed: 400 MHz. Users of Pentium® 4 processor-based PCs can create...
Electronic industries; Intel microprocessors; Microprocessor packages; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Celeron® processor package. Clock speeds: 266 MHz. Transistor Count: 7.5 million (0.25 micron process)Single Edge Processor Package (SEPP), 242 pins. Bus Speed: 66MHz. Bus Width: 64 bit system bus....
Electronic industries; Intel microprocessors; Microprocessor dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel Pentium III MPU die. The Intel® Pentium® III processor features 70 new instructions--Internet Streaming SIMD Extensions -- that dramatically enhance the performance of advanced imaging, 3-D, streaming audio,...
Electronic industries; Intel microprocessors; Microprocessor dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Pentium® II MPU die. The 7.5 million-transistor Intel® Pentium® II processor incorporates Intel® MMX™ technology, which is designed specifically to process video, audio and graphics data efficiently....
Electronic industries; Intel microprocessors; Microprocessor dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Pentium® Processor die on a finger. 66 MHz. 60 MHz 0.8-micron 3.1 million.
Electronic industries; Intel microprocessors; Microprocessor dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Pentium® 4 processor. The processor debuted with 42 million transistors and circuit lines of 0.18 microns, 29 years after Intel's first microprocessor. The Intel® Pentium® 4 processor's initial speed was...
Electronic industries; Intel microprocessors; Microprocessor dies; Photographs; Santa Clara (Calif.); Santa Clara County (Calif.)--History; Technology;
Enlarged color photograph of the Intel® Celeron® processor. Continuing Intel's strategy of developing processors for specific market segments, the Intel® Celeron® processor was designed for the value PC market segment. First integrated L2 cache...
