Product Selector Guide 2012 Version 1.5

About Stretch Stretch is the pioneer and world leader in the field of software configurable processors. Using the extreme processing performance of S7000 family processors, Stretch has designed a range of PCIe DVR add-in cards, cameras and standalone DVRs. These products set a new performance standard against which other designs are measured.

Software Configurable Processors (SCP) Software configurable processors combine traditional RISC processors and programmable logic, extracting the benefits of both. Tight coupling of RISC processors to a programmable compute fabric embedded directly inside the processor’s data path provides unprecedented performance for embedded computing. Stretch’s patented Instruction Set Extension Fabric (ISEF) is a software configurable compute fabric that lets system designers extend the processor instruction set and define new instructions. These “extension instructions” are defined in C/C++ and then automatically synthesized, placed, and routed into the ISEF—providing computational acceleration for any algorithm that can be expressed in C/C++. Stretch’s third generation S7000 family devices deliver unprecedented compute capability to demanding video applications. In addition to a high performance software configurable engine, all S7000 family devices include a rich collection of I/O interfaces, peripherals, and an integrated ARM9 host processor. This reduces system component counts and reduces costs. Stretch S7000 family devices are available in a variety of package, speed grade, and temperature options to allow developers to choose the device best suited to their application.

DDR3 (bits/speed)

Maximum Frequency 1.225V 1.2V 1.075V 1.0V

1.225V

1.2V

1.075V

Data Ports 1.0V

PCI Express

Ethernet MAC

Ordering Code

AIM

S7000 Family Devices

Peripherals

1.225V 1.2V 1.075V 1.0V

IP Camera Performance

D1 DVR Channels

1.2V

1.0V

1.2V

1.0V

S7100PH-C4

400

383

267

200

32/1067 32/1067 32/800 32/667 4 10-bit

4

4

0

0

4

1G

SD, USB

1080p60

1080p30+

16

8

S7100PH-HC4

400

383

267

200

32/1067 32/1067 32/800 32/667 4 10-bit

4

4

n/a

n/a

4

1G

SD, USB

1080p60

n/a

16

n/a

S7100PH-C3 S7100PH-I3

n/a

333

n/a

167

n/a

32/800

n/a

4

4

0

0

4

1G

SD, USB

1080p60

1080p30+

12

6

S7100PH-HC3 S7100PH-HI3

n/a

333

n/a

n/a

n/a

32/800

n/a

4 10-bit

4

4

n/a

n/a

4

1G

SD, USB

1080p60

n/a

12

n/a

S7100PH-C2

n/a

267

n/a

133

n/a

32/800

n/a

32/400 4 10-bit

4

4

0

0

4

1G

SD, USB

1080p30+ 1.3MP30

11

5

S7100PH-HC2

n/a

267

n/a

n/a

n/a

32/800

4 10-bit

4

4

n/a

n/a

4

1G

SD, USB

1080p30+

n/a

11

n/a

S7110PB-C3

n/a

333

267

183

n/a

32/800

32/800 32/667 2 8-bit 1 14-bit

2

2

0

0

2

1G

SD, USB

1080p60

1080p30+

12

7

S7110PB-HC3 S7110PB-HE3

n/a

333

267

183

n/a

32/800

32/800

32/667 2 8-bit 1 14-bit

2

2

n/a

n/a

2

1G

SD, USB

1080p60

n/a

12

n/a

S7110PB-C2 S7110PB-I2

n/a

267

n/a

133

n/a

32/667

32/800 32/400 2 8-bit 1 14-bit

2

2

0

0

2

1G

SD

1080p30+ 1.3MP30

10

5

S7110PB-HC2 S7110PB-HI2

n/a

267

n/a

n/a

n/a

32/667

2 8-bit 1 14-bit

2

2

n/a

n/a

2

1G

SD

1080p30+

10

n/a

S7120PB-C2 S7120PB-I2

n/a

300

267

183

n/a

16/800

16/800 16/667 1 8-bit 1 14-bit

0

0

0

0

0

1G

SD

1080p30+ 1080p30

6

6

n/a

n/a

32/400 4 10-bit n/a

n/a

n/a

Operating Temperature: Commercial = Tj 0ºC – 100ºC, Industrial = Tj -40ºC – 125º, Extended = Tj 0ºC – 125ºC Package: S7100 = 23x23 FCBGA 1.0mm Pitch, S7110 = 17x17 FBGA 0.8mm Pitch, S7120 = 14x14 FBGA 0.65mm Pitch

n/a

Reference Designs ... complete solutions for fast time to market

Stretch reference designs leverage the capabilities of S7000 family of software configurable processors to achieve unprecedented performance. Designs are available for PCIe DVR add-in cards, HDcctv and IP cameras, and for hybrid standalone DVRs. Reference designs are available as production-ready OEM units, as Evaluation Reference Design Kits (EVK), or as Full Reference Designs Kits (RDK). A Software Development Kit (SDK), common across all Stretch reference designs, makes porting of application code quick and straight forward, speeding time to market.

OEM Production Ready Units Production ready units, simply supply your own application software Complete firmware load for the Stretch product and the Stretch Software Development Kit (SDK) for easy porting of host application software.

VRC7016L

EVK Evaluation Kits Evaluate video quality, performance, and ease of integration Complete firmware load (with source code) for the reference design, 1 demonstration applications, and a complete SDK for customer evaluations.

IPCAM7120

RDK Reference Design Kits

5

2

3

4

1

D

Everything you need to design your own highly differentiated product

C

D

D2 D1 E1 F3 G2 H4 H3 H1 J3 J2 K4 K2 L4 L3 M3 M2 N3 N4 P1 P2 R3 R4 T3 T4 U1 U2 U3 V2 W2 Y1 Y2 AA1

PE0_DDR_DQ0 PE0_DDR_DQ1 PE0_DDR_DQ2 PE0_DDR_DQ3 PE0_DDR_DQ4 PE0_DDR_DQ5 PE0_DDR_DQ6 PE0_DDR_DQ7 PE0_DDR_DQ8 PE0_DDR_DQ9 PE0_DDR_DQ10 PE0_DDR_DQ11 PE0_DDR_DQ12 PE0_DDR_DQ13 PE0_DDR_DQ14 PE0_DDR_DQ15 PE0_DDR_DQ16 PE0_DDR_DQ17 PE0_DDR_DQ18 PE0_DDR_DQ19 PE0_DDR_DQ20 PE0_DDR_DQ21 PE0_DDR_DQ22 PE0_DDR_DQ23 PE0_DDR_DQ24 PE0_DDR_DQ25 PE0_DDR_DQ26 PE0_DDR_DQ27 PE0_DDR_DQ28 PE0_DDR_DQ29 PE0_DDR_DQ30 PE0_DDR_DQ31

F2 J4 P4 V3

PE0_DDR_DM0 PE0_DDR_DM1 PE0_DDR_DM2 PE0_DDR_DM3

PE0_DDR_DQS0_P F1 PE0_DDR_DQS0_M G1 PE0_DDR_DQS1_P J1 PE0_DDR_DQS1_M K1 PE0_DDR_DQS2_P R1 PE0_DDR_DQS2_M T1 PE0_DDR_DQS3_P V1 PE0_DDR_DQS3_M W1

The complete EVK kit, plus the hardware design files needed to build derivative products. RDKs also include a distribution license for the Stretch Intelligent Encoder.

B

DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 DQ16 DQ17 DQ18 DQ19 DQ20 DQ21 DQ22 DQ23 DQ24 DQ25 DQ26 DQ27 DQ28 DQ29 DQ30 DQ31 DM0 DM1 DM2 DM3 DQS0_P DQS0_M DQS1_P DQS1_M DQS2_P DQS2_M DQS3_P DQS3_M

CLKA_P CLKA_M CLKB_P CLKB_M CKE RAS_N CAS_N WE_N CS0_N CS1_N ODT0 ODT1

U1A

BA0 BA1 BA2

S7100PH-C4P

A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15

FEEDBACK0 FEEDBACK2

DDR_CAL0 DDR_CAL1 DDR3_RST_N

R6 PE0_DDR_CLKA_P PE0_DDR_CLKA_N

100

N2 N1

PE0_DDR_CLKA_P PE0_DDR_CLKA_N

L2 L1

PE0_DDR_CLKB_P PE0_DDR_CLKB_N

PE0_DDR_CKE PE0_DDR_RST_N

E6 G5 F5 E5

J7 K7

PE0_DDR_CS0_N PE0_DDR_RAS_N PE0_DDR_CAS_N PE0_DDR_WE_N

L2 J3 K3 L3

PE0_DDR_CS0_N PE0_DDR_ODT0

PE0_DDR_BA0 PE0_DDR_BA1 PE0_DDR_BA2

M2 N8 M3

C1 D6 D4

PE0_DDR_BA0 PE0_DDR_BA1 PE0_DDR_BA2

C3 A2 B1 C7 C6 C5 A4 A3 A5 B6 D7 B5 B2 B4 A7 C4

PE0_DDR_A0 PE0_DDR_A1 PE0_DDR_A2 PE0_DDR_A3 PE0_DDR_A4 PE0_DDR_A5 PE0_DDR_A6 PE0_DDR_A7 PE0_DDR_A8 PE0_DDR_A9 PE0_DDR_A10 PE0_DDR_A11 PE0_DDR_A12 PE0_DDR_A13 PE0_DDR_A14 PE0_DDR_A15

PE0_DDR_A0 PE0_DDR_A1 PE0_DDR_A2 PE0_DDR_A3 PE0_DDR_A4 PE0_DDR_A5 PE0_DDR_A6 PE0_DDR_A7 PE0_DDR_A8 PE0_DDR_A9 PE0_DDR_A10 PE0_DDR_A11 PE0_DDR_A12 PE0_DDR_A13 PE0_DDR_A14 PE0_DDR_A15

N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7

G3 R2

L5 M5 A6

R10

60.4

PE0_DDR_RST_N

U2 CK CK_N

K9 T2

PE0_DDR_CKE PE0_DDR_RAS_N PE0_DDR_CAS_N PE0_DDR_WE_N

E3 D3 F4 E4

CKE RESET_N CS_N RAS_N CAS_N WE_N BA0 BA1 BA2 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 A12/BC# NC/A13 NC/A14 NC/A15

E1 M1 P1 T1 J2 B3 G8 J8 A9 M9 P9 T9

VSS0 VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11

B1 D1 G1 E2 D8 E8 B9 F9 G9

VSSQ0 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8

DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 UDM LDM UDQS UDQS_N LDQS LDQS_N NC0 NC1 NC2 NC3 ODT VREFDQ VREFCA ZQ VDD0 VDD1 VDD2 VDD3 VDD4 VDD5 VDD6 VDD7 VDD8 VDDQ0 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8

E3 F7 F2 F8 H3 H8 G2 H7 D7 C3 C8 C2 A7 A2 B8 A3 D3 E7 C7 B7 F3 G3

R7 PE0_DDR_CLKB_P PE0_DDR_CLKB_N

PE0_DDR_DQ18 PE0_DDR_DQ21 PE0_DDR_DQ19 PE0_DDR_DQ20 PE0_DDR_DQ17 PE0_DDR_DQ23 PE0_DDR_DQ16 PE0_DDR_DQ22 PE0_DDR_DQ31 PE0_DDR_DQ27 PE0_DDR_DQ29 PE0_DDR_DQ25 PE0_DDR_DQ28 PE0_DDR_DQ26 PE0_DDR_DQ30 PE0_DDR_DQ24 PE0_DDR_DM3 PE0_DDR_DM2 PE0_DDR_DQS3_P PE0_DDR_DQS3_M PE0_DDR_DQS2_P PE0_DDR_DQS2_M

J1 L1 J9 L9 K1 H1 M8 L8 N1 R1 B2 K2 G7 K8 D9 N9 R9 A1 C1 F1 D2 H2 A8 C9 E9 H9

PE0_DDR_ODT0 R8 VCC_DDR

100

PE0_DDR_CKE PE0_DDR_RST_N

DDR_VREF1

240

C4 0.1uF

J7 K7 K9 T2

PE0_DDR_CS0_N PE0_DDR_RAS_N PE0_DDR_CAS_N PE0_DDR_WE_N

L2 J3 K3 L3

PE0_DDR_BA0 PE0_DDR_BA1 PE0_DDR_BA2

M2 N8 M3

PE0_DDR_A0 PE0_DDR_A1 PE0_DDR_A2 PE0_DDR_A3 PE0_DDR_A4 PE0_DDR_A5 PE0_DDR_A6 PE0_DDR_A7 PE0_DDR_A8 PE0_DDR_A9 PE0_DDR_A10 PE0_DDR_A11 PE0_DDR_A12 PE0_DDR_A13 PE0_DDR_A14 PE0_DDR_A15

N3 P7 P3 N2 P8 P2 R8 R2 T8 R3 L7 R7 N7 T3 T7 M7 E1 M1 P1 T1 J2 B3 G8 J8 A9 M9 P9 T9

C5 0.1uF

VCC_DDR

B1 D1 G1 E2 D8 E8 B9 F9 G9

MT41J128M16HA-187E

U3 DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15

CK CK_N CKE RESET_N CS_N RAS_N CAS_N WE_N BA0 BA1 BA2 A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 A12/BC# NC/A13 NC/A14 NC/A15 VSS0 VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11

UDM LDM UDQS UDQS_N LDQS LDQS_N NC0 NC1 NC2 NC3 ODT VREFDQ VREFCA ZQ

VSSQ0 VSSQ1 VSSQ2 VSSQ3 VSSQ4 VSSQ5 VSSQ6 VSSQ7 VSSQ8

VDDQ0 VDDQ1 VDDQ2 VDDQ3 VDDQ4 VDDQ5 VDDQ6 VDDQ7 VDDQ8

PE0_DDR_DQ3 PE0_DDR_DQ4 PE0_DDR_DQ2 PE0_DDR_DQ7 PE0_DDR_DQ1 PE0_DDR_DQ5 PE0_DDR_DQ0 PE0_DDR_DQ6 PE0_DDR_DQ15 PE0_DDR_DQ11 PE0_DDR_DQ14 PE0_DDR_DQ8 PE0_DDR_DQ13 PE0_DDR_DQ10 PE0_DDR_DQ12 PE0_DDR_DQ9

D3 E7

PE0_DDR_DM1 PE0_DDR_DM0

C7 B7

PE0_DDR_DQS1_P PE0_DDR_DQS1_M

F3 G3

C

PE0_DDR_DQS0_P PE0_DDR_DQS0_M

J1 L1 J9 L9 K1 H1 M8 L8

PE0_DDR_ODT0 R9 VCC_DDR

N1 R1 B2 K2 G7 K8 D9 N9 R9

240

VCC_DDR

R227 1.2K 1%

DDR_VREF1

C3 0.1uF

C2 0.1uF

C428 4.7uF

R228 1.2K 1%

VCC_DDR

A1 C1 F1 D2 H2 A8 C9 E9 H9

B

MT41J128M16HA-187E

VCC_DDR C6 0.1uF

C7 0.1uF

C8 0.1uF

C9 0.1uF

C10 0.1uF

C11 0.1uF

C12 0.1uF

C13 0.1uF

C14 0.1uF

C15 0.1uF

C16 0.1uF

C17 0.1uF

C18 0.1uF

C19 0.1uF

C20 0.1uF

C21 0.1uF

C22 0.1uF

C23 0.1uF

C25 0.1uF

C26 0.1uF

C27 0.1uF

C28 0.1uF

C29 0.1uF

C30 0.1uF

C31 0.1uF

C32 0.1uF

C33 0.1uF

C34 0.1uF

C35 0.1uF

C36 0.1uF

C37 0.1uF

C38 0.1uF

C39 0.1uF

C40 0.1uF

C41 0.1uF

VCC_DDR C24 0.1uF

A

Confidential and Proprietary © Stretch, Inc. All ri

ghts reserved

Stretch Inc. 1322 Orleans Drive Sunnyvale, CA 94089 Title

5

4

3

2

VRM7016 1 Intelligent Encoder is supplied as object code

VDD0 VDD1 VDD2 VDD3 VDD4 VDD5 VDD6 VDD7 VDD8

E3 F7 F2 F8 H3 H8 G2 H7 D7 C3 C8 C2 A7 A2 B8 A3

www.stretchinc.com Phone: 408-543-2700 Fax: 408-747-5736

PE0 DDR3 I/F

Size Document Number BOM Variant MAIN Custom Date: Thursday, June 02, 2011

1

Sheet

5

Internal Version Rev 4A N/A of 19

A

S7000 PCIe Add-in Cards ... surveillance industry’s best video quality

VRC7000 Series Encoding Cards VRC7000 cards are available in channel densities from 4 to 32 channels and at resolutions ranging from standard definition up to high definition HDcctv. These cards feature the Stretch Intelligent Encoder and have multi-stream, multi-CODEC capability, including Stretch H.264 Scalable Video CODEC (SVC) and Stretch H.264 High Profile CODEC. These CODECs produce the surveillance industry’s best video quality, its lowest bit rates, and produce streams that can be managed with unprecedented ease.

VRC7016L

VDC7000 Series Decode and Display Cards VDC7000 series cards provide a high performance and versatile video decode and display sub-system. They have universal decode capability, decoding streams from any video source including IP Cameras and standalone DVRs. Output video interface options include high definition HDMI, HDcctv, and standard definition CVBS. Extensive video post processing, scaling, and captioning allow multiple streams of decoded or raw video to be displayed in user-defined configurations.

VDC7002LHDMI

Stretch VRC7000 and VDC7000 series cards feature the Stretch eAIM interface to allow cards within a system to communicate without host processor intervention. This high bandwidth interface reduces host processing requirements and reduces system costs. Ordering Codes

Form Factor

S7 Devices

Encoding /Decoding

Display

eAIM

Connectivity

EVK-VRC7032 RDK-VRC7032

Full Height Short Form

3 S7100

32 D1 Encode

2 CVBS

2 Port

BNC breakout adapter cable, Embedded I/O headers

EVK-VRC7016LX RDK-VRC7016LX

Low Profile Short Form

2 S7110

16 D1 Encode

2 CVBS

1 Port

BNC breakout adapter cable, Embedded I/O headers

EVK-VRC7016L RDK-VRC7016L

Low Profile Short Form

1 S7100

16 D1 Encode

None

1 Port

BNC breakout adapter cable, Embedded I/O headers

EVK-VRC7008L RDK-VRC7008L

Low Profile Short Form

1 S7100

8 D1 Encode

1 CVBS

1 Port

BNC breakout adapter cable, Embedded I/O headers

EVK-VRC7004HD RDK-VRC7004HD

Full Height Short Form

2 S7100

4 1080P30 Encode

None

2 Port

BNC connector on back panel

EVK-VDC7002LHDMI RDK-VDC7002LHDMI

Low Profile Short Form

1 S7100

16 D1 Decode

2 HDMI

2 Port

HDMI

EVK-VDC7002LHDCCTV RDK-VDC7002LHDCCTV

Low Profile Short Form

1 S7100

2 1080p30 Decode or 16 D1 Decode

2 HDcctv

2 Port

BNC connectors on back panel

EVK-VDC7004L RDK-VDC7004L

Low Profile Short Form

1 S7100

16 D1 Decode

4 CVBS

2 Port

BNC breakout adapter cable

VRM7000 Standalone DVR Reference Designs ... true hybrid capability

Stretch VRM7000 Series designs are available in channel densities from 8 to 16 channels and with resolutions ranging from standard definition to high definition HDcctv. They use the power and flexibility of the S7000 family of processors to provide full duplex operation, and universal decode ensures true hybrid capability for compatibility with any IP camera. All VRM7000 Series designs are compatible with the full range of Stretch CODECs, including the H.264 High Profile and Scalable Video CODECs (SVC), and use the rich API standard in all Stretch products. VRM7000 Series reference designs feature spot monitor video outputs as well the ability to send stored video via a network to remote monitoring clients. The flexibility and scalability built into these reference designs ensure that derivative products can be easily designed in a range of channel densities and with a wide variety of features.

VRM7016

High levels of integration afforded by the S7000 family of software configurable processors ensure very low system material costs. Host application software can be easily ported to run under Linux on the ARM processor present in each S7000 family device. Ordering Codes

S7 Devices

Encode Capability

Input Video

Output Video

Storage

EVK-VRM7016 RDK-VRM7016

2 S7100

H.264 High Profile and H.264 SVC

16 Channels D1

HDMI, CVBS, VGA

Up to 10 SATA Ports

EVK-VRM7008 OEM-VRM7008

1 S7110

H.264 High Profile and H.264 SVC

8 Channels D1

CVBS, VGA

1 SATA Port

EVK-VRM7008HD RDK-VRM7008HD

5 S7100

H.264 High Profile and H.264 SVC

8 Channels HDcctv

HDMI, VGA, HDcctv

Up to 9 SATA Ports

S7000 Cameras ... flexible image signal processing

S7000 Series Camera Reference Design Kits Stretch S7000 series camera reference design kits feature Stretch software configurable processors and are available in a selection of resolution and output options. These singlechip designs feature state-of-the-art technology for ultimate video quality and are available with either Internet Protocol (IP) or HDcctv outputs. Stretch S7000 series camera kits use an integrated Image Signal Processing (ISP) engine to process raw image data from the sensor and to perform a wide array of algorithms including Color Filter Array (CFA) interpolation, defective pixel and black level correction, Wide Dynamic Range (WDR) tone mapping, color and gamma correction, and image enhancement. To optimize camera settings for the best possible image, the ISP also provides control for automatic exposure, focus, and white balance. ISP parameters are controlled through a rich API, and elements can be replaced with customer-specific algorithms when required. The Stretch ISP removes the need for a separate ISP device, so total system costs are reduced.

IPCAM7100

Using Stretch’s H.264 High Provide CODEC combined with the advanced image processing of the Stretch ISP provides the industry’s best image quality and lowest compressed bit rate. Stretch IPCAM7100 and IPCAM7120 reference designs can also perform video compression using the Stretch H.264 IPCAM7120 Scalable Video CODEC (SVC) to provide ultimate scalability and stream management capabilities. The Stretch HDCCTVCAM outputs pristine quality high definition 1920 x 1080 progressive scan video at 30 frames per second over an HDcctv-compatible interface. The result is low latency, high quality video in a platform that is easy to deploy using existing installed infrastructure. Stretch IP cameras feature a PSIA server running on the S7000 family processor’s embedded ARM9 processor. This makes the designs easy to install and configure using industry standard PSIA clients.

Ordering Codes

Maximum Resolution at Full Frame Rate

Interface Options

Encoding Capability

Control Protocols

EVK-IPCAM7100 RDK-IPCAM7100

1080p60 5MP

Ethernet, CVBS Analog Monitor, HDcctv Local Monitor

H.264 High Profile, H.264 Scalable Video CODEC, MPEG4

PSIA and ONVIF

EVK-IPCAM7110 RDK-IPCAM7110

1080p60 4MP

Ethernet, CVBS Analog Monitor

H.264 High Profile, MPEG4

PSIA and ONVIF

EVK-IPCAM7120 RDK-IPCAM7120

1080p30 720p60

Ethernet, CVBS Analog Monitor

H.264 High Profile, H.264 Scalable Video CODEC, MPEG4

PSIA and ONVIF

EVK-HDCCTVCAM RDK-HDCCTVCAM

1080p30

HDcctv

None

HDcctv

Stretch Software Development Kit (SDK) ... performance of hardware, simplicity of C

S7000 Software All Stretch board products—IP camera reference designs, PCIe DVR add-in cards, and standalone DVR systems—are compatible with the same SDK. This ensures maximum code reuse and speeds time to market. The Stretch SDK provides a rich collection of CODECs, video processing algorithms, and system management functions. All SDK features can be accessed through an extensive collection of Application Programming Interface (API) calls, making host application software development straightforward and intuitive.

The Stretch H.264 High Profile CODEC This Stretch H.264 High Profile CODEC is standard in the SDK and is available to all Stretch platforms. Its highly efficient design produces compressed video at half the bit rate of competing products, reducing storage requirements and slashing operating costs. For a given bit rate, the Stretch H.264 High Profile CODEC produces the surveillance industry’s best video quality.

The Stretch H.264 Scalable Video CODEC (SVC) The Stretch H.264 SVC CODEC produces compressed streams that can be decoded to produce video at different frame rates and resolutions. By parsing the encoded stream, bandwidth and decode compute requirements can be changed in real time. In this way, SVC streams can transit networks with constrained bandwidth and be decoded by low-complexity client devices. Recorded SVC streams can be parsed to lower their frame rate and resolution, reducing their storage requirements to regain valuable storage resources. This reduces costs while allowing operators to retain a valid video archive for longer periods.

Remote Monitoring

HD Monitor C Stream

Single SV

Megapixel IP Camera

SVC Server Monitor Wall

First Responders

WWW.STRETCHINC.COM

Stretch Incorporated 1322 Orleans Drive Sunnyvale, CA 94089 USA Tel: 408-543-2700 Fax: 408-747-5736 [email protected]

MK-S7PROD-0001-005