The DM505 is a highly optimized device for Vision Analytics and Machine Vision processing in Industrial products such as drones, robots, forklifts, railroad and agriculture equipment. The Processor enables sophisticated embedded vision processing integrating an optimal mix of real time performance, low power, small form factor and camera processing for systems to interact in more intelligent, useful ways with the physical world and the people in it.
The DM505 incorporates a heterogeneous, scalable architecture that includes a mix of TI’s fixed and floating-point TMS320C66x digital signal processor (DSP) generation cores, Vision AccelerationPac (EVE), and dual-Cortex-M4 processors. The device allows low power designs to meet demanding embedded system budgets without sacrificing real-time processing performance to enable small form factor designs. The DM505 also integrates a host of peripherals including interfaces for multi-camera input (both parallel and serial), display outputs, audio and serial I/O, CAN and GigB Ethernet AVB.
TI provides application specific hardware and software through our Design Network Partners and a complete set of development tools for the Arm, and DSP, including C compilers with TI RTOS to accelerate time to market.
The DM505 is a highly optimized device for Vision Analytics and Machine Vision processing in Industrial products such as drones, robots, forklifts, railroad and agriculture equipment. The Processor enables sophisticated embedded vision processing integrating an optimal mix of real time performance, low power, small form factor and camera processing for systems to interact in more intelligent, useful ways with the physical world and the people in it.
The DM505 incorporates a heterogeneous, scalable architecture that includes a mix of TI’s fixed and floating-point TMS320C66x digital signal processor (DSP) generation cores, Vision AccelerationPac (EVE), and dual-Cortex-M4 processors. The device allows low power designs to meet demanding embedded system budgets without sacrificing real-time processing performance to enable small form factor designs. The DM505 also integrates a host of peripherals including interfaces for multi-camera input (both parallel and serial), display outputs, audio and serial I/O, CAN and GigB Ethernet AVB.
TI provides application specific hardware and software through our Design Network Partners and a complete set of development tools for the Arm, and DSP, including C compilers with TI RTOS to accelerate time to market.
| Typ | Titel | Datum | ||
|---|---|---|---|---|
| * | Data sheet | DM505 SoC for Vision Analytics 15mm Package (ABF) Silicon Revision 2.0 datasheet (Rev. E) | PDF | HTML | 02 Mai 2018 |
| * | Errata | DM50x Silicon Errata (Rev. A) | 23 Feb 2018 | |
| User guide | Clock Tree Tool User Manual (Rev. I) | 24 Jun 2020 | ||
| User guide | DM50x SoC for Vision Analytics Technical Reference Manual (Rev. B) | 28 Okt 2017 | ||
| More literature | Vision Library (VLIB) for C64x+/C674x/C66x Processors | 24 Jan 2017 | ||
| User guide | Pad Configuration Tool User Manual | 16 Nov 2016 | ||
| Application note | Introduction to TMS320C6000 DSP Optimization | 06 Okt 2011 |
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| Gehäuse | Pins | CAD-Symbole, Footprints und 3D-Modelle |
|---|---|---|
| FCBGA (ABF) | 367 | Ultra Librarian |
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G711 Encoder and Decoder
G722 Encoder and Decoder
G722.1 Encoder and Decoder
G722.2 Encoder and Decoder
G726 Encoder and Decoder
G728 Encoder and Decoder
G711 Encoder and Decoder
G722 Encoder and Decoder
G722.1 Encoder and Decoder
G722.2 Encoder and Decoder
G726 Encoder and Decoder
G728 Encoder and Decoder
G711 Data Sheet for Encoder and Decoder
G711 Release Notes
G722 Data Sheet for Encoder and Decoder
G722 Release Notes
G722.1 Data Sheet for Encoder and Decoder
G722.1 Release Notes
G722.2 Data Sheet for Encoder and Decoder
G722.2 Release Notes
G726 Data Sheet for Encoder and Decoder
G726 Release Notes
G728 Data Sheet for Encoder and Decoder
G728 Release Notes
OPUS Data Sheet for Encoder and Decoder
OPUS Codec Release Notes
OPUS Codec Release Notes
OPUS Codec Release Notes
All codecs are ELF builds,
eXpressDSP
compliant, and implement XDM 1.0 interfaces.The codec package was generated using GenCodecPkg wizard included in Codec Engine 3.xx.
TIPS and
FAQs
: Understanding and integrating TI codecs:Codecs FAQ | Codec Engine FAQ | XDM FAQ | How do I integrate codecs into the DVSDK | DaVinci
SUPPORTED PLATFORMS:All these speech modules can be used on any of the C6x based platforms such as DM644x, DM646x, OMAP3530, DM648, C6466, C674x, and C66x
RELEASE PACKAGE: All the speech codec releases have both encoder and decoder release packages
G722.2 from ITU-T is also known as GSM-WBAMR from 3GPP
PERFORMANCE: Please refer to codec data sheet for MHz and memory requirement. Actual MHz requirements vary depending on memory and cache configuration
MCSDK Video Package for Windows
MCSDK Video Package for Linux
Active Perl for rebuilding demo executables
Active Perl for rebuilding demo executables
MinGW packages are needed to rebuild demo executables
Desktop Linux SDK package
BIOS MCSDK package
Codegen Tools for Linux
BIOS MCSDK package
Codegen Tools for Windows
C6678 Video and Image Codecs
MCSDK VIDEO Release Notes and Licensing overview
MCSDK VIDEO functional specifications
This is the Release 2.2.0.46 for the Multicore Video Infrastructure Demo Built on MCSDK.
This package of Multicore Video Infrastructure Demo Built on MCSDK (called as MCSDK Video in short thereafter) provides software development environment to implement and demonstrate real-time video applications on TI C66x multi-core DSPs.The MCSDK Video 2.2 is built leveraging two SDKs.
1.
BIOS-MCSDK [SDK is DSP internal and provides platform abstraction, networking, inter-core communication, etc. For more details, please see
BIOS MCSDK Getting Started Guide
and ]2.
Desktop Linux SDK [SDK abstracts the messaging,
PCIe
transport and data I/O between host processor and DSP. For more details please seeDesktop Linux SDK Getting Started Guide
andDesktop Linux SDK Development Guide
].MCSDK Video 2.2 provides video specific software modules, video/image codecs, and video analytics libraries along with multiple out of box demo applications. MCSDK Video 2.2 application (along with the SDKs) provides complete development environment [host + DSP] to offload real-time video applications to TI C66x multi-core DSPs.
Please see the following wiki pages for more information:
Supported Platforms
Platform Development Kit | Supported Devices | Supported EVMs |
C6678 | TMS320C6678 | TMDXEVM6678LXE, Advantech Lightning DSPC-8681E, Advantech Lightning DSPC-8682E |
Support
FAXLIB for C66x Windows Installer
FAXLIB for C66x Linux Installer
FAXLIB for C64x+ Windows Installer
FAXLIB for C64x+ Linux Installer
FAXLIB for C55x Windows Installer
FAXLIB for C55x Linux Installer
FAXLIB for C55x CPU Rev 3 Windows Installer
FAXLIB for C55x CPU Rev 3 Linux Installer
FAXLIB Fact Sheet
FAXLIB C55x Users Manual
FAXLIB C64x+ Users Manual
FAXLIB C66x Users Manual
This is a GA release of the FAX Library (FAXLIB) for C55x/C64x+/C66x processors.
The Fax Library provides components that allow a development team to reduce time-to-market by providing the major building blocks of a fax relay processing system. The library contains reliable field-hardened fax relay processing software. The deliverables in this release include, a Windows and Linux installation executable for both the C55x and C6x DSP processing cores. Each executable installs a component package repository, a documentation directory, an Example directory, an Eclipse plugin directory and an expanded component directory structure with all component libraries, header files and test examples. The FAXLIB User Manual below provides additional information regarding this release.AER for C55x Windows Installer
AER for C55x Linux Installer
AER for C55x CPU V3.3 Windows Installer
AER for C55x CPU V3.3 Linux Installer
AER for C64x+/c674x (Big and Little Endian) Windows Installer
AER for C64x+/c674x (Big and Little Endian) Linux Installer
AER for Cortex-A8 Softfp Windows Installer
AER for Cortex-A8 Softfp Linux Installer
AER for Cortex-A8 Hardfp Windows Installer
AER for Cortex-A8 Hardfp Linux Installer
AER Fact Sheet
Beamforming white paper
AER Installation Guide
AER User's Manual
AER Software Manifest
The Acoustic Echo Cancellation/Removal (AER) removes or minimizes acoustic echo that is
generated by the coupling between the speaker and the microphone of a phone or similar device, particularly in hands-free mode. The primary purposes of the AER are:VoLIB for C66x Windows Installer
VoLIB for C66x Linux Installer
VoLIB for C64x+ Windows Installer
VoLIB for C64x+ Linux Installer
VoLIB for C55x Windows Installer
VoLIB for C55x Linux Installer
VoLIB for C55x CPU Rev 3 Windows Installer
VoLIB for C55x CPU Rev 3 Linux Installer
VoLIB Fact Sheet
VoLIB C55x Users Manual
VoLIB C64x+ Users Manual
VoLIB C66x Users Manual
This is a GA release of the Voice Library (VoLIB) for the C55x, C64x+ and C66x processor families.
The Voice Library provides components that, together, facilitate the development of the signal processing chain for Voice over IP applications such as infrastructure, enterprise, residential gateways and IP phones. Together with optimized implementations of ITU-T voice codecs, that can be acquired from TI separately ( link ), the components of VoLIB satisfy most of the fundamental building blocks required to develop a complete VoIP signal processing chain. The deliverables in this release include, a Windows and Linux installation executable for the C55x, C64x+ and C66x DSP processing cores. Each executable installs a component package repository, a documentation directory, an Eclipse plugin directory and an expanded component directory structure with all component libraries, header files and test examples. The VoLIB Fact Sheet below provides additional details regarding this release.Software Defects
A list of tracked software defects can be found here. (Note: If prompted for login/password, close the window and try the link again)H264-BP-MP-DECODER
H264HP-DECODER
HEVC-DECODER
JPEG2K-DECODER
JPEG-IMAGE-DECODER
MPEG2-DECODER
MPEG4-DECODER
AVCIU-ENCODER
H264-HP-ENCODER
HEVC-ENCODER
JPEG2K-ENCODER
JPEG-IMAGE-ENCODER
MPEG2-ENCODER
MPEG4-ENCODER
C66XCODECVID
Current Windows installer
Current Linux installer
C67X-MATHLIB
STK-MED for C64x+ and C66x Windows Installer
The TI Embedded Processor Software Toolkit for Medical Imaging (STK-MED) is a collection of several standard ultrasound and optical coherence tomography (OCT) algorithms for TI's C66x and C64x+ architecture. The algorithms showcase how medical imaging functions can leverage the C66x and C64x+ architecture for efficient performance and low power consumption. The goal of STK-MED is to shorten customer development time of medical imaging systems by providing optimized implementations of commonly used processing blocks. The source code contained in the STK-MED can easily be extended or modified to develop customized and differentiated modules. Please see the landing page, https://www.ti.com/tool/s2meddus for feature details.
Additional Information * Support Forum: Please post your question at https://e2e.ti.com/support/embedded/f/355.aspx and include tag "STK-MED". Technical Documents * Documentation is included within the package. Note * Please do not install in the same directory as .exe file. Legal Disclaimer System and equipment manufacturers and designers are responsible to ensure that their systems (and any TI devices incorporated in their systems) meet all applicable safety, regulatory and system-level performance requirements. All application-related information on this website (including application descriptions, suggested TI devices and other materials) is provided for reference only. While we have taken care to assure it is accurate, this information is subject to customer confirmation, and TI disclaims all liability for system designs and for any applications assistance provided by TI. Use of TI devices in life support and/or safety applications is entirely at the buyer's risk, and the buyer agrees to defend, indemnify and hold harmless TI from any and all damages, claims, suits or expense resulting from such use.The SysConfig tool is used configure TI software and hardware. For software configuration, SysConfig is used in conjunction with a TI SDK. For PinMux configuration, the tool may be used standalone.