Asus As99127f Motherboard Driver For Mac
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These motherboards use a IT8655E chip, which is not supported by the it87 kernel driver, as of Nov 2020 [1]. However, it is supported by the upstream version of the kernel driver [2]. The DKMS variant is contained in it87-dkms-gitAUR.
Some recent Asus motherboards use a ITE IT8665E chip, accessing the temperature, fan and voltage sensors may require the asus-wmi-sensors module. It is part of the mainline kernel since 5.17: load the asus-wmi-sensors kernel module which uses the UEFI interface and may require a BIOS update on some boards [3].
Some Gigabyte motherboards use the ITE IT8686E, ITE8689 (for B560 and B660M) or ITE8689E (for Z690) chip, which is not supported by the it87 kernel driver, as of May 2019 [5]. However, it is supported by the upstream version of the kernel driver [6]. The DKMS variant is contained in it87-dkms-gitAUR. As with #Asus H97/Z97/Z170/Z370i/X570/B550 motherboards, a kernel parameter is required before attempting to install the module:
This motherboard uses the ITE IT8620E chip (useful also to read voltages, mainboard temp, fan speed). As of October 2014, lm_sensors has no driver support for chip ITE IT8620E [7] [8]. lm_sensors developers had a report that the chip is somewhat compatible with the IT8728F for the hardware monitoring part. However, as of August 2016, [9] lists the IT8620E as supported.
Introduction It's not been long since I looked at Asus's i850 motherboard for Socket 478 P4's, the P4T-E. They were kind enough to send us their i845 based board for the same CPU at the same time. I've been keen to look at other options for the P4 since my first taste of the platform with the MSI 850 Pro5, another i850 board. As the P4 market has matured, more chipsets have appeared for use with them. We now have SiS and their SiS645 DDR333 chipset, VIA with P4X266 and P4X266A and Intel with i850 (RAMBUS) and i845 and i845D (SDR and DDR). Quite a few choices for the P4 buying public. The i845 is the only SDR choice at the moment and boards are quite popular and it's an i845 board that Asus have given us in the P4B. The Pentium 4 processor likes memory bandwidth. RAMBUS gives it a possible 3.2Gb/sec and it loves it. PC2100 DDR gets close at 2.1Gb/sec and the new DDR333 chipset from SiS gives it 2.7Gb/sec (DDR333 = PC2700). But what about the i845? Using PC133 SDRAM makes for a maximum memory bandwidth of 1.06Gb/sec. So why starve the P4 of what it craves? Price is the main reason. The chipset is available very cheaply in volume from Intel. Manufacturers can create solutions based on the chipset without worrying about the high resulting price tag. PC133 SDRAM is also cheap allowing you to stuff a system full of memory (chipset maximum is 3Gb) for little outlay (although prices are on the up from this years all time lows!). This resulting decrease in price lets system builders worldwide get the P4 out to the masses for less money than a i850 based system with RAMBUS memory. Intel would love to achieve a greater market share with the Pentium 4 and the i845 lets them do that. They want a Pentium 4 on every desk and in every home and quite rightly so. Price isn't the main driver for someone looking for a performance system however. How will performance users judge the i845 systems? I'll try and look at things from both sides when I conclude the review so both camps will be able to see if the Asus is for them. Chipset Features Before we see what Asus have done with the platform, lets take a look at the chipset itself. It's a 2 chip affair, MCH and ICH2 (north and south bridges). The 82845 Memory Controller Hub (MCH) takes care of the CPU interface, memory interface (to PC133 SDRAM in this case), an AGP4X interface and the hub I/O to the ICH2. The ICH2 takes care of everything else. All the back plane I/O like USB, serial and parallel port. PCI bus, IDE interface and also on the silicon AC'97 and LAN capability. The Asus Implementation So what have Asus done to the i845? Here's the board spec.
Hardware monitoring devices let you monitor the hardware healthof a system. Most modern motherboards include such a device. Itcan include temperature sensors, voltage sensors, fan speedsensors and various additional features such as the ability tocontrol the speed of the fans. If you want this support youshould say Y here and also to the specific driver(s) for yoursensors chip(s) below.
Notes on USB settings: Use only the USB host driver(s) for your host device(s) listed in lspci -n. If you have ohci hosts, use the ohci driver, and vice versa. Sometimes the Debian device database is less than forthcoming about USB drivers. Remember, if it's Intel or VIA, UHCI. Any other motherboard, it's ohci. Turning EHCI support on for machines without EHCI devices has been known to shut down the USB ports completely. Compiling the USB drivers into the kernel prevents a tendency for the USB drivers to shut down unexpectedly. You should only use modules if your host devices demand you pass arguments to the module for proper operation. Otherwise, compile those drivers into the kernel. ohci support is turned off because it has been noted for conflicting with UHCI.
Notes on USB settings: Use only the USB host driver(s) for your host device(s) listed in lspci -n. If you have ohci hosts, use the ohci driver, and if you have uhci hosts, use the uhci driver. Sometimes the Debian device database is less than forthcoming about USB drivers. Remember, if it's Intel or VIA, it's uhci. Any other motherboards, it's ohci. 2b1af7f3a8