System Requirements

Modified by Susan Riege on Sep 20, 2018

Recommended System Requirements

Windows 7 (32-bit or 64-bit), Windows 8 (32-bit or 64-bit), or Windows 10 (32-bit or 64-bit) Intel® Core™ i7 processor or equivalent
8 GByte RAM
10 GByte hard disk space (Install + User Files)
SSD
High performance graphics card (supporting DirectX 10 or better), such as GeForce GTX 1060/Radeon RX 470
Dual monitors with 2560x1440 (or better) screen resolution
3D mouse for 3D PCB design, such as the Space Navigator
Adobe^® Reader^® (version XI or later for 3D PDF viewing)
Internet Connection
Up to date Web browser

Minimum System Requirements

Windows 7 (32-bit or 64-bit), Windows 8 (32-bit or 64-bit), or Windows 10 (32-bit or 64-bit) Intel® Core™ i3 processor or equivalent
4 GByte RAM
10 GByte hard disk space (Install + User Files)
Graphics card (supporting DirectX 10 or better), such as GeForce 200 series/Radeon HD 5000 series/Intel HD 4600
Monitor with at least 1680x1050 (widescreen) or 1600x1200 (4:3) screen resolution
Adobe^® Reader^® (version XI or later for 3D PDF viewing)
Up to date Web browser
Microsoft Office 32-bit (Microsoft Excel required for BOM)

DPI Scaling Support

The following table shows the maximum DPI Scaling supported based on the vertical resolution of the monitor being used.

Monitor Vertical Resolution (pixels)	Maximum DPI Scaling Supported
1024 to 1200	100%
1600	125%
1800	200%
2K and above	250%

Other Considerations

The Size of the Design

The system requirements detailed above are for a medium-sized PCB design, for example, up to 1000 components and up to 1000 nets. If your designs have a larger number of components and/or nets, consider upgrading the processor family (for example, upgrade an i5 to an i7).

While there are no 'hard limits' per se, the software has been engineered to make it impractical for use with large designs. To this end, the PCB Editor will start to exhibit performance degradation when editing designs containing 5000 pads, becoming virtually unusable with designs containing 50,000 pads. Degradation itself takes the form of progressive slow-down in PCB editing functions (such as routing, placing components, polygon pours, etc.).

The Importance of a Good Graphics Card

Graphics cards are a critical hardware element that can have a large impact on both the performance and stability of systems. Choose the right hardware requirements necessary to achieve stunning results makes the whole system more responsive and ‘feel’ better, and also removes distractions to design caused by lags in the GUI. The Altium PCB editor has been optimized for use with DirectX 9.0c and requires a graphics card that supports this. Altium has chosen DirectX rather than OpenG for its graphics engine, which has become the preferred standard for gaming graphics cards. An advantage of this choice is the fact that gaming cards are often significantly cheaper than workstation cards of equivalent performance. Therefore, we strongly recommend the use of a gaming card instead of a workstation card.

The need for a high-performance graphics card is directly related to the amount of use of the 3D PCB capabilities. For example, a Core i7 processor with on-chip integrated HD4000 graphics will be more than adequate if you only require occasional use of the 3D PCB capabilities. If you intend to make extensive use of the 3D PCB features for computationally intensive tasks, such as interactive presentations, it is recommended to use a dedicated gaming graphics card in combination with a 3D mouse, such as the Space Navigator.

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