How BIG STREAMERS Use AIMBOT Without BANS.. (How DMA AIMBOT Works + Tutorial)

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Summary

This video details various DMA (Direct Memory Access) devices used for aimbotting, primarily focusing on the KMBOX and Maku devices. It highlights their functionalities, setup processes, and discusses detection risks associated with different anti-cheat systems. The video also includes a tutorial on flashing the Maku device and modifying it for enhanced safety.

Highlights

Introduction to DMA Aimbot Devices
00:00:00

The video introduces different DMA devices for aimbotting, including the popular KMBOX line, Arduinos, and the newer Maku device. It notes that while Maku devices currently have fewer detection issues, all devices are eventually susceptible to detection.

KMBOX Overview and Detection Risks
00:00:22

The KMBOX is described as similar to a host shield and Arduino Leonardo combo but with added protection. Different KMBOX versions (B+, B+ Pro, Net) are mentioned, primarily differing in cost and speed. The basic function involves the cheat on a separate PC simulating mouse events to control aim and recoil. A key point is made that more popular methods of mouse control are more likely to be detected, with EAC actively targeting KMBOX users in some games. For games using higher-end EAC, KMBOX is advised against, but for others, it's sufficient.

Introducing the Maku Device and Setup
00:01:45

The Maku device is presented as the newest and safest option currently available. The video provides a visual overview of the Maku's inputs and board. It highlights that the sponsor, DMA Kingdom, supplied the device. The next segment focuses on how to flash and set up the Maku.

Flashing and Driver Installation for Maku
00:02:35

The tutorial begins with unzipping flash files onto a secondary PC (not the gaming PC). Users are advised to temporarily disable antivirus for this process. The Maku is then connected, and its driver is installed by dragging and dropping the .cat file. The video demonstrates putting the Maku into flash mode by holding a button while plugging it into a specific USB port. Both left and right sides of the Maku are flashed with their respective firmware files.

Maku USB Port Configuration
00:04:30

Once flashing is complete, the video explains the three USB ports: the far left connects to the main PC, the far right to the mouse, and the middle to the cheat-running PC.

Modifying the Maku for Enhanced Safety (ESP32 Chip Removal)
00:04:48

For users wanting to use V3 firmware or increase safety, the video advises removing a specific ESP32 chip on the Maku board. This chip can be detected by the main PC with certain firmware. A soldering iron is recommended for safe removal, as breaking it off could damage the board. The video demonstrates unscrewing the board and carefully desoldering the small chip near a button. It notes that newer Macu boards may not have this chip pre-installed, but older Maku owners or those from other providers should check.

Re-flashing Maku with V3 Firmware after Modification
00:06:55

After the chip removal, the Maku flasher is opened again. The V3 firmware is then flashed to the right side of the Maku. The video confirms successful connection in normal mode, indicating the modification was effective against potential anti-cheat detection.

Final Thoughts on KMBOX Detection
00:07:24

The video concludes by reiterating that KMBOXes are being detected in some higher-level EAC games. However, for games like CS, they are likely to remain undetected.

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