Arm Development Studio 2020.0 Windows 64Bit 

Introduction
The release notes contain:
•   A highlight of the tools included  in the suite
•   What's new in version 2020.0
•   How to get started with  Development Studio
•   How to provide feedback and  get support
•   Known limitations in this  release

What's included in Development Studio?
Arm  Development Studio IDE
Development Studio helps you build, code,  debug and optimize Arm-based projects quickly. From device bring-up to  application debug to creating highly efficient micro-controller applications,  Development Studio enables you to bring better products to market ahead of the  competition.
Arm  Compiler
Arm Compiler 5 and Arm Compiler 6  toolchains enable you to build highly optimized embedded applications for the  entire range of Arm processors. Arm Compiler 5 supports all Arm architectures  from Armv4 to Armv7 inclusive. Arm Compiler 6 supports Armv6-M, Armv7, and  Armv8 architectures.
Arm  Debugger
Arm Debugger is a graphical debugger  supporting software development on Arm processor-based targets and Fixed  Virtual Platforms (FVP). The Arm Debugger includes support for SoC bring-up  with platform configuration utilities using the Arm ULINK™ and DSTREAM debug  probes families.
Arm  Fixed Virtual Platforms
Fixed Virtual Platforms (FVPs) provide the  ideal combination of performance, flexibility and usability for development and  debug at all levels of the software stack. Based on Arm Fast Models, a library  of FVPs is supplied with Development Studio for Cortex-A, Cortex-R and Cortex-M  processors. In addition, Development Studio supports custom FVPs created using  the Arm Fast Models package, via the Platform Configuration Editor (PCE).
Arm  Streamline
Arm Streamline is a system-wide performance  profiler which can be used to analyse Linux, Android, and bare-metal embedded  systems. Streamline's visualization tools make it easy to identify performance  bottlenecks in software running on Arm CPUs, and data-plane workloads running  on Arm Mali GPUs and other Arm IP. This is supplemented by a hot-spot software  profiler which can identify the dominant functions and call paths in  application software, enabling performance tuning of the entire system  platform.
Arm  Graphics Analyzer
Arm Graphics Analyzer allows you to capture  and visualize OpenGL ES, Vulkan and OpenCL API calls made by an application,  including capture of application assets and generation of debug visualizations  of the application framebuffers. This can be used to identify which API calls  are responsible for rendering defects, and makes it easy to identify rendering  inefficiencies and performance issues. Arm Graphics Analyzer was formerly known  as Mali Graphics Debugger.

Development Studio 2020.0
Arm Development Studio IDE
•   Eclipse updated to 2019-09  (4.13)
•   Example code included for  Cortex-M55, Cortex-A77, and Neoverse N1 processors
Arm Compiler
•   Updated to version 6.14 for  the latest features, bug fixes and performance improvements. The complete  release notes are available on the Arm Compiler 6 Downloads page.
Arm Debugger
This release of Development Studio includes  the following new features and enhancements:
•   Debug for Cortex-M55 and  STAR processors enabled in Bronze Edition
•   Debug for Cortex-A34,  Cortex-A77 and Neoverse N1 processors now included in Silver edition
•   Arm Custom Instructions  support is enabled in all editions
•   ST-Link and FTDI debug probe  connections supported in all editions
•   Improved support for the  ULINK family of debug probes and other third party probes in the Platform  Configuration Editor (PCE) and CSAT-600
•   Support included for SoC-600  CATU
•   Iris debug and trace  interface supported for virtual prototypes
•   Arm Debugger Debug Probe API  shipped as part of the installation
•   New platform debug  configurations included for
o   Cortex-M33  (SSE-200 Subsystem) MPS2+ FPGA
o   Cortex-M33  (SSE-200 Subsystem) MPS3 FPGA
o   Corstone-700  MPS3 FPGA
o   DesignStart  A5 MPS3 FPGA
o   Raspberry  Pi 4
o   NVIDIA  Xavier
o   Renesas  R-Car D3
o   Renesas  R-Car V3M
o   Renesas  R-Car E3
•   New Arm Fixed Virtual  Platform (FVP) debug configurations added for
o   MPS2  Cortex-M55
o   Base  Neoverse N1
o   Base  Cortex-A77
For a complete list of supported device  please visit the Supported Devices page
Arm Fixed Virtual Platforms
Updated to version 11.10 for the latest  features, bug fixes and performance improvements. The complete release notes  are available on the Fast Models Release History page.
Arm Streamline
This release of Development Studio includes  the following new features and enhancements:
•   Updated to version 7.2.
•   New device support for:
o   Cortex-M55
o   Cortex-A34
o   Cortex-A77
o   Mali-G57
The following deprecated features have been  removed in this release:
•   Streamline provides  backwards compatibility for loading data files from tool releases made in the  prior two years. This release removes support for loading files generated with  Streamline 6.5 or older.
•   Data capture using gatord  built from older tool releases. Data capture must now use the version of gatord  shipped with the host tool being used.
•   Kernel mode data capture  using the gator.ko kernel module. Data capture must now use gatord to collect  data using standard Linux Perf data collection interfaces.
•   Model data capture from Arm  SoC Designer.
Arm Graphics Analyzer
This release of Development Studio includes  the following new features and enhancements:
•   Updated to version 5.5
•   Improved Android 10  interception for OpenGL ES and Vulkan
The following deprecated feature has been  removed in this release:
•   Replaying captured traces on  Android and Linux targets. The recommended alternatives for capturing and  replaying API sequences are:
•   OpenGL ES: Arm PATrace  application, available at https://github.com/ARM-software/patrace.
•   Vulkan: LunarG vktrace  application, available at  https://github.com/LunarG/VulkanTools/tree/master/vktrace
Supported Host Platforms
The list of supported host platforms is  available online, in the Hardware and host platform requirements section of the  Getting Started Guide.
Important note: Support for RedHat  Enterprise Linux 6 is deprecated, and Microsoft Windows 7 operating system  support will be discontinued in future releases.
Getting Started
For an in-depth introduction to Development  Studio, system requirements and installation instructions, please consult the  online Getting started page. A copy of the Getting started guide is also  included in your installation of Development Studio and accessible from within  the IDE.
If you are migrating from DS-5, there also  is a DS-5 migration guide to help you transition quickly.

Feedback & Support
You can find tutorials, documentation and  videos on the Development Studio Learn page.
For technical support, go to our Support  page. You can also raise queries and support issues relating to Development  Studio on the Arm Community website.

Noteworthy Issues and Limitations
•   Arm Graphics Analyzer Linux  target device detection via UDP broadcast on the local subnet is unreliable on  Ubuntu 18.04 host machines. If your device is not detected you will need to  connect directly by specifying the target device's IP address and port number.
•   Arm DS IDE [DSCORE-8640] -  When opening a workspace created with a previous version of Arm DS, the IDE  prompts you to upgrade your workspace, with an option to change to another  workspace rather than perform the upgrade.

However, the change workspace option  incorrectly shows the same dialog again rather than allowing another workspace  to be selected. This is a known defect with the Eclipse IDE (See https://bugs.eclipse.org/bugs/show_bug.cgi?id=551260).

To change the workspace, start Arm DS IDE  from the command line and pass the workspace directory path as a parameter. For  example, 'armds_ide -data /path/to/workspace'.

Also note that when you upgrade your workspace,  the upgraded workspace settings might no longer work with earlier versions. The  projects in your workspace are not affected when upgrading your workspace.

•   Arm DS IDE [DSCORE-8365] -  On Ubuntu 16.04 the IDE has a degraded UI experience. This is due to an  underlying GTK 3.18 bug that affects cell editors in Tables. It is a known  issue with Eclipse (see https://bugs.eclipse.org/bugs/show_bug.cgi?id=533221).

Affected functionality:
o   Platform  Configuration Editor: You can no longer change the values of the configuration  options in the PCE directly. Instead, you must manually edit the values in the  SDF/MDF file.
o   Manage  Signals dialog box: You can no longer configure signal handling in the Manage  Signals dialog box. Instead, use the handle command.