CrossCore Embedded Studio Download & Install
There are no seperate toolchain,On-Board Peripheral Drivers & Software for EV-COG-AD4050WZ, the toolchain,On-Board Peripheral Drivers & Software for EV-COG-AD4050LZ works with EV-COG-AD4050WZ.The user needs to change only the pin muxing based on the application.For help regarding pinmapping refer to the Hardware Details section.
This page provides all the necessary steps to get CrossCore Embedded Studio (CCES) software environment up and running on Windows or Linux.
The CCES software development environment for EV-COG-AD4050LZ is based on open source tools, and is maintained by Analog Devices. CCES includes support for DSP (digital signal processing) and ARM Cortex M- and A- devices, and includes the following features and many more:
CrossCore Embedded Studio
is based on Eclipse
, but because the MBED platform provides a CMSIS-DAP interface to connect to the board, the EV-COG-AD4050LZ can be used without problems with IAR Embedded Workbench IDE
or Keil µVision IDE
Pre-Requisites and Requirements List
There are a few things that you will need for the tools and software to work properly.
PC or laptop computer
cable needs to have ALL data lines connected, can't use a charging only micro USB
CrossCore Embedded Studio Download Packages
The following features are available and supported
Compilation using the GNU
ARM Embedded toolchain for the ADuCM302x and ADuCM4x50 ARM Cortex-M
Debugging ADuCM302x and ADuCM4x50 via the IDE
Development and debugging of bare-metal applications on the ADuCM302x and ADuCM4x50 ARM Cortex-M
The following features are only supported via the Windows version
CrossCore Embedded Studio Installer Instructions
It is best that you save all the files/folders to the default directories recommended by the CrossCore Embedded Studios installer. This way all the instructions and support provided will be easier.
Installing CrossCore Embedded Studio on Windows
The executable installs all necessary components to the Analog Devices local directory structure which can be found below.
CrossCore Embedded Studio installs to C:\Analog Devices\CrossCore Embedded Studio 2.6.0
installs to C:\Analog Devices\CrossCore Embedded Studio 2.6.0\Eclipse
ARM Embedded Toolchain for Cortex-M
installs to C:\Analog Devices\CrossCore Embedded Studio 2.6.0\ARM\gcc-arm-embedded
OpenOCD installs to C:\Analog Devices\CrossCore Embedded Studio 2.6.0\ARM\openocd\bin
CMSIS Pack files are installed to C:\Analog Devices\CrossCore Embedded Studio 2.5.1\ARM\packs
Installing CrossCore Embedded Studio on Linux
The Ubuntu Linux Installer(Debian) installs all necessary components to the Analog Devices local directory structure which can be found below.
CrossCore Embedded Studio installs to /opt/analog/cces/2.6.0
installs to /opt/analog/cces/2.6.0/Eclipse
ARM Embedded Toolchain for Cortex-M
installs to /opt/analog/cces/2.6.0/ARM/gcc-arm-embedded
OpenOCD installs to /opt/analog/cces/2.6.0/ARM/openocd/bin
CMSIS Pack files are installed to /opt/analog/cces/2.6.0/ARM/packs
Activating CrossCore Embedded Studio
The first time you launch CrossCore Embedded Studio, you will be prompted to input a serial number, name, and email address. The serial number for ALL EV-COG-AD4050LZ boards is:
Once the serial number has been activated, the CrossCore development tools will allow you full and unlimited access to all the features of the tool when using the Analog Devices family of ARM Cortex Processor.
CrossCore Embedded Studio Support
For more details on CrossCore Embedded Studio, updated versions of the tools, release notes, tools documentation, or other support. Please visit the CrossCore webpage, or email the CrossCore support team at email@example.com
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