Security module Gigabyte GC-TMP2.0 SPI 2.0
- Compute Securely with GIGABYTE’s TPM 2.0 Solution These days security is on the forefront of everyone’s mind. With cyber criminals around the world actively trying to steal your financial and personal information, you need to do everything you can to protect yourself. While many users protect themselves with anti-virus programs and other software measures, the reality is if you want complete peace of mind you’ll need to take things a step further and use a hardware based security solution. This is especially critical for employees such as accountants or insurance agent where they handle personal information of many individuals. Thankfully there is a solution to help keep your precious data secure: a Trusted Platform Module (TPM).
- Adding another layer of security The TPM is a discrete cryptographic processor attached to a daughter board which plugs into the motherboard. The TPM securely stores your cryptographic key which can be created with encryption software such as Windows BitLocker. Without this key, the contents of the user’s PC will remain encrypted and safe from unauthorized access. This means that when using a TPM, the data on our PC will be safe not only from external software threats, but also physical theft. The GIGABYTE TPM GC-TPM 2.0 features the SLB9665, an advanced 2048-bit cryptographic processor by Infineon®. The SLB9665 by Infineon processor meets all the latest industry standards including TPM 2.0 as well as Common Criteria (EAL4+). This processor creates a military-grade encryption key that allows the use to encrypt your hard drive with Windows BitLocker, and also verify your identity online for tasks like online banking. The GC-TPM 2.0 is compatible with GIGABYTE motherboards of that include a TPM header on below: Intel platform: 200-series, 100-series, 8-series* , 9-series & X99 series AMD platform: AM4, FM2 series * To support GIGABYTE GC-TPM 2.0 needs to update the latest BIOS. * Support for Windows 7 64-bits, Windows 8.1 32/64-bits, Windows 10 64-bit
* The entire materials provided herein are for reference only. GIGABYTE reserves the right to modify or revise the content at anytime without prior notice.
* Advertised performance is based on maximum theoretical interface values from respective Chipset vendors or organization who defined the interface specification. Actual performance may vary by system configuration.
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* Due to standard PC architecture, a certain amount of memory is reserved for system usage and therefore the actual memory size is less than the stated amount.