Thaiphoon Burner is the first known software that provides the easiest way to edit and flash SPD of RAM in Windows without using any additional hardware components!
The second version supports 8 new Intel ICH7 series peripheral controllers, nVidia nForce 3 250GB and MCP55 controllers. In addition, Thaiphoon features an enhanced HEX Editor that enables to move the cursor by arrow keypad.
Thaiphoon Burner is designed for those who are in need of getting all available information from SPD about memory modules.
It enables you to reprogram SPD directly or in the special emulation mode. Thaiphoon Burner can load external SPD dumps and flash them into current EEPROM. Thaiphoon creates a highly detailed report that can be saved after in a separate file.
Thaiphoon Burner supports for 25 Intel ICHx southbridges and 7 VIA southbridges: VT8231, VT82C686, VT8235, VT8233A/Ñ, VT8237/A. It fully compatible with all nVIDIA controllers. Besides, Thaiphoon knows about 635 unique manufacturer IDs of the JEDEC specification. Also, Thaif makes a search for any devices linked to the System Management Bus.
Using Thaiphoon Burner and appropriate technical documentation you can program any part of hardware that is visible as a SMB-device; for example, clock synthesizers, hardware monitoring sensors, SPD, etc. Besides, the latest version is fully compatible with DDR-II SPD data interpretation.
Limitations:
· Some functions are disabled
What's New in This Release:
· Before accessing SMBus Controller, Thaiphoon Burner performs an extra check for its current status. If the SMBus Controller is hidden in the PCI Device list the program forces the Controller to be enabled. This extra routine is executed for all Intel SMBus Controllers. This helps accessing SPD EPPROM especially on HP notebooks.
· After changing the SDRAM device parameters through the “Addressing and Capacity” dialog box Thaiphoon Burner did not update corresponding registers in the HEX Editor. So, this error has been eliminated.
· Added decoding for some new Module Manufacturer Location IDs.