Search results by keyword ‘system recovery’

In the world of digital investigations, the sheer volume of data and the challenge of identifying valuable evidence can be overwhelming. Often, investigators find themselves faced with the need for optimization — the ability to quickly and seamlessly identify what is valuable and requires further examination. We aim to fulfill this need by introducing a new forensic toolkit in Elcomsoft System Recovery, a powerful bootable tool designed to speed up investigations, quickly identify and collect digital evidence right on the spot.

Elcomsoft System Recovery 8.30 introduced the ability to break Windows Hello PIN codes on TPM-less computers. This, however, was just one of the many new features added to the updated release. Other features include the ability to detect Microsoft Azure accounts and LUKS2 encryption, as well  as new filters for bootable forensic tools.

Elcomsoft System Recovery is a perfect tool for digital field triage, enabling safer and more secure in-field investigations of live computers by booting from a dedicated USB media instead of using the installed OS. The recent update added a host of features to the already great tool, making it easier to examine the file system and extract passwords from the target computer.

Accessing a locked system is always a challenge. Encrypted disks and encrypted virtual machines, encrypted files and passwords are just a few things to mention. In this article we are proposing a straightforward workflow for investigating computers in the field.

As you may already know, we’ve released an update to Elcomsoft System Recovery, a tool allowing to reset or recover Windows and Microsoft Account passwords by booting from an external USB drive. The new build allows creating bootable USB drives for devices exclusively relying on UEFI bootloaders. Why was this change needed? Read below for an answer!

In the world of digital forensics, there are various ways to analyze computer systems. You might be familiar live system analysis or investigating forensic disk images, but there’s yet another method called cold system analysis. Unlike live analysis where experts deal with active user sessions, cold system analysis works differently. It’s like a middle ground between live analysis and examining saved images of a computer’s storage. But why and when would someone use cold analysis? What can you do with it, and how does it compare to the usual methods?

Have you ever tried to unlock a password but couldn’t succeed? This happens when the password is really strong and designed to be hard to break quickly. In this article, we’ll explain why this can be a tough challenge and what you can do about it.

In the realm of password recovery, benchmarking the speed of attacks holds significant importance. It is a customary practice to gauge the speed of attacks on various data formats using diverse hardware configurations. These tests yield results that are visually represented through graphs clearly demonstrating the performance of our products. However, these graphical representations merely scratch the surface of a much broader scope. Today, we delve deeper into the objectives and methodologies behind our password cracking speed tests.

Access to encrypted information can be gained through various methods, including live system analysis (1 and 2), using bootable forensic tools, analysis of sleep/hibernation files, and exploiting TPM vulnerabilities, with password recovery being the last option on the list. Each method has different resource requirements and should be used in order of least resource-intensive to most time-consuming, with password recovery as the last resort. Familiarize yourself with the different encryption recovery strategies and learn about data formats with weak protection or known vulnerabilities.

This article continues the series of publications aimed to help experts specify and build economical and power-efficient workstations for password recovery workloads. Electricity costs, long-term reliability and warranty coverage must be considered when building a password recovery workstation. In this article we will review the most common cooling solutions found in today’s GPUs, and compare consumer-grade video cards with their much lesser known professional counterparts.