IVC-8371P 4 Channel Hardware Codec MPEG-4 Video/Audio Capture Card
IVC-8371 IVC-8371P 4 Channel Hardware Codec MPEG-4 4 Video/Audio Capture Card 180.91mm 119.91mm 106.68mm 106.68mm The only difference between New IVC-8371P and IVC-8371 is board dimension.
IVC-8371P Spec Highlight RoHS - Compliance MPEG-4 Advanced Simple Profile @ Level 5(ISO/IEC 14496-2) MPEG-2 Main Profile @ Main Level (ISO/IEC 13818-2) MPEG-1 (ISO/IEC 11172-2) H.263 (ITU-T Recommendation H.263) 4 channel video & audio capturing Supports NTSC/PAL signal Total 30fps@720x480 for 4 channels 8 bit mono audio output Dual video stream for recording and live monitoring Real time raw data, 30 fps, shrinking and enlarging by chip Maximum D1 resolution live monitoring for single card
IVC Product Line-up MPEG-4 Hardware CODEC IVC-8371P Total 30 fps@d1 video/audio capturing MPEG-4 Hardware encoder IVC-4300 Total 120 fps@d1 video/audio capturing PM-1058 Total 60 fps @D1 2 ch. video/audio capturing Frame grabber IVC-100 Total 30 fps@vga IVC-200 Total 120 fps@vga PM-1056 Total 30 fps@vga PCI interface PC/104 plus interface
Advantages of Hardware Codec Dedicated chip for video processing Supports multi-standard video format Video pre/ post processing Video encoding/decoding Cost and performance efficient Pure software - P4 2.0GHz, 256MB IVC-8371P P3 1.0GHz, 128MB
Key Processes of Video capturing Encoding: The process to encode (digitize and compress) the analog video signal. Decoding Video encoded must be translated, or decoded, in order to be viewed / monitored. These processes are usually resource craving, and the overall performance decline rapidly when encoding and monitoring are performed simultaneously.
Software Encoding & Decoding Architecture A/D A/D A/D A/D PCI Bridge Digitalized raw data PCI Bus Memory CPU Encoding Decoding 2 1 HDD MPEG-4 video file
IVC-8371P System Architecture digitalize multiplexing encoding/ decoding Encode video stream for recording Digitalized multi-channel raw data for monitoring Decoding stream PCI bus
Performance Test on Pentium IV System Test Environment CPU: Pentium 4 3.0GHz Memory: 1.0GB Chipset: Intel 915G Express OS: Windows XP SP2 Model. 30 fps@720x480, preview only 30 fps@720x480, preview and recording, MPEG-4 format 120fps@720x480, preview and recording, MPEG-4 format IVC-8371P 5% 10% 50% IVC-4300 15% 20% 75% IVC-200 15% 35% 100% IVC-8371P demands 25 to 50% less system resource than software solutions. Ideal for : Low-cost multi-channel video capturing system. 120% 100% 80% 60% 40% 20% IVC-8371P IVC-4300 IVC-200 Free up CPU and memory for other processes. 0% 30 fps@720x480, preview only 30 fps@720x480, preview and recording, MPEG-4 format 120fps@720x480, preview and recording, MPEG-4 format
Performance Test on PIII System Test Environment Model: ROCKY-3786 CPU: Pentium III 1.0GHz Memory: 128MB Chipset: Intel 810 OS: Windows XP SP2 Recording Live monitoring Ch resolution frame rate audio format 4 ch 4 ch 320x240 30 yes MPEG-4 avi 8 ch 8 ch 320x240 30 yes MPEG-4 avi 12 ch 12 ch 320x240 30 yes MPEG-4 avi 16 ch 16 ch 320x240 30 yes MPEG-4 avi Can apply up to 4 cards in a Pentium III system. 100% 80% 60% 40% 20% 4 ch 8 ch 12 ch 16 ch 0% CPU consumption Ideal Solution for integration with existing system!!
Partnering with Celeron 400 MHz Test Environment Model: ROCKY-C400N CPU: Embedded ULV Intel Celeron 400MHz Memory: 512MB Chipset: VIA VT8601T+686B VGA: ATI RADEOM 7000 OS: Windows XP SP2 Recording & decoding setting CPU Comsumption Memory Usage 4 channel, D1, 8 fps MPEG-4 recording 56% 81.8MB 1 channel, D1, 30 fps MPEG-4 recording 74% 81.8MB 4 channel, CIF, 30 fps MPEG-4 recording 100% 82.3MB * VIA VT8610T has incomplete YUV overlay mode support and additional VGA card is recommended. Low power, compact size, fan-less, low cost!!
Partnering with Celeron M 600 MHz Test Environment Model: JUKI-6770 CPU: Intel Celeron M ULV 600MHz, no L2 cache Memory: 512MB Chipset: Intel 852GM OS: Windows XP SP2 Recording & decoding setting CPU Comsumption Memory Usage 4 channel, D1, 8 fps MPEG-4 recording 40% 88.4MB 1 channel, D1, 30 fps MPEG-4 recording 50% 88.4MB 4 channel, CIF, 30 fps MPEG-4 recording 83% 89.2MB Low power, compact size, fan-less, low cost!!
Hardware Rendering Live Monitoring
Hardware Rendering Live Monitoring 720x480 video stream Display Latency, unexpected error, etc. General scheme of multi-channel live monitoring process IVC-8371P multi-channel live monitoring process 30 fps multi channel live monitoring
Versatile to Meet Your Demand Build-in in features for security application Motion detection Camera lost detection Watermarking Pre-alarm recording Multi-channel display OSD PIP 2 x digital zoom
WaterMarking Video signal is compressed as bit stream including the digital cryptograph data If bit stream with watermark are forged, the watermark data are changed accordingly Maximum 128 bit digital watermark, intensity adjustable
Motion Detection 192 detect areas for each channel Multi-level level sensitivity selectable Pre alarm output
Multi-Channel Display 1/ 4 / 8 / 12 / 16 channel display available in demo program Other multi-channel display mode supported by chip
On Screen Display Supports 24 bit graphic OSD 4 level transparency and bypass: 0%, 25%, 50% and 75% 3 level blink: no blink, 1/15 sec, ½ sec and 1 sec
Picture In Picture for Monitoring Supports maximum 4 PIP windows of QCIF size
SDK & Demo Program Demo Program with Basic DVR functionalities 16 channel demo program Encoding/decoding configuration 1/4/8/12/16 channel display mode Motion detection Playback control SDK Complete source code of demo program Programming guideline Device Driver Device Driver Windows 2000 Windows XP
Benefits For Professional Surveillance SI Shortens the software product development cycle by powerful hardware codec features More Flexibility for building advance functionalities with same hardware platform For Entry Level Surveillance SI Shortens the product development cycle by building software based on our demo program For Solution Integration Ready-to-use video processing features, SI can concentrate on the function integration Low integration cost, because of its low resource consumption rate
Applications - 16 channel PC-based DVR System
Applications POS / ATM System Integration Digital Video Surveillance System Video Editing System Distance Learning System Mobile Surveillance System Video Streaming System
Resolution / Frame Rate Table Video resolution Maximum frames / sec. Number of channels Average frames per channel NTSC PAL 720x480(576) 640x480(576) 30(25) 1 2 30 15 25 12.5 4 7.5 6.25 720x240(288) 640x240(288) 352x480(576) 352x480(576) 60(50) 2 4 30 15 25 12.5 352x240(288) 320x240(288) 120(100) 4 30 25
Product Specification Interface Functionality Video Processing System Requirement Software Support Audio Processing Operation Environment
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