The Pentium 4 processor is designed to deliver performance across applications where end users can truly appreciate and experience its performance. For example, it allows a much better user experience in areas such as Internet audio and streaming video, image processing, video content creation, speech recognition, 3D applications and games, multi-media and multi-tasking user environments. The Pentium 4 processor enables real-time.
             The Pentium 4 processor has MPEG2 video encoding and near real-time MPEG4 encoding, allowing efficient video editing and video conferencing. It delivers world-class performance on 3Dapplications and games, such as Quake 3?, enabling a new level of realism and visual quality to 3D applications. The Pentium 4 processor has 42 million transistors implemented on Intel's 0.18u CMOS process; with six levels of aluminum interconnect. It has a die size of 217 mm2 and it consumes 55 watts of power at 1.5GHz. Its 3.2 GB/second system bus helps provide the high data bandwidths needed to supply data to todays and tomorrow's demanding applications. It adds 144 new 128-bit Single Instruction Multiple Data (SIMD) instructions called SSE2 (Streaming SIMD Extension 2) that improves performance for multi-media, content creation, scientific, and engineering applications.
             This particular processor has 42 million transistors implemented on Intel's 0.18u CMOS process; with six levels of aluminum interconnect. It has a die size of 217 mm2 and it consumes 55 watts of power at 1.5GHz. Its 3.2 GB/second system bus helps provide the high data bandwidths needed to supply data to todays and tomorrow's demanding applications. It adds 144 new 128-bit Single Instruction Multiple Data (SIMD) instructions called SSE2 (Streaming SIMD Extension 2) that improves performance for multi-media, content creation, scientific, and engineering applications.
             The Pentium 4 processor provides substantial performance gain for many ...