Techniques are described herein for enhancing software application development and software design-for-test (DFT) technology by facilitating dynamic management and control of embedded dynamic test features via an application development and optimization platform. In some embodiments, an application development and optimization platform is described that can track, manage and rollout features of native mobile applications without the need to wait for public app store releases.

In one implementation, systems and methods are provided for developing a computer-implemented digital experience application having a first and a second micro-application. Each micro-application includes a front end interface configured to receive and display information. The first micro-application includes a first event manager configured to detect an application event belonging to a category, and a first state manager configured to detect an application state belonging to the category. The digital experience application further includes a driver application configured to host the first and second micro-applications, an event hub configured to receive the detected application event from the first micro-application, and a state store configured to store the detected application state received from the first micro-application. The second micro-application includes a second event manager configured to receive the detected application event from the event hub, and a second state manager configured to receive the detected application state from the state store.

In an approach to improve resolving defects within computer hardware, programs, software, or systems, embodiments pause mainline traffic and isolating interface or retention issues, and determine one or more types of errors in an event of a mainline traffic fail, wherein debug techniques are applied to fail information to resolve or further diagnose the one or more types of errors, and wherein the debug techniques are tracked and categorized. Additionally, embodiments apply corrective read actions to a detected error based on previously stored corrective actions associated with the detected error, and responsive to identifying no additional actions are required, restoring a collected system data. Further, embodiments, resume the paused mainline traffic.

Systems and methods are described for verifying functionality of software. A set of code that is to be validated is identified. A first configuration is determined for the set of code that configures the code as a first build for validation. The first build is released for a first validation process. Prior to completion of validation of the first build, a second configuration is determined for the set of code that configures the code as a second build for validation. The second build is released for a second validation process prior to completion of validation of the first build. The first and second validation process are staged so that the first and second builds can be reverted independently of one another in the event of a validation issue. The first and second validation process are independently completed in the absence of a validation issue.

A system and method for efficiently performing a bootup operation are described. In various implementations, an integrated circuit includes at least one or more processors and on-chip memory. The on-chip memory has a higher security level than off-chip memory. One of the one or more processors is designated as a security processor. During the processing of the multiple boot steps of a bootup operation, the security processor receives one or more out of band (OOB) events that are not included in the bootup operation. The security processor initializes both an OOB queue and a main boot queue in the on-chip memory. The security processor stores boot steps of the bootup operation in the main boot queue and stores received OOB events in the OOB queue. The security processor executes at least one OOB event prior to completing the bootup operation.

Among other things, a method includes, at a computer system on which one or more computer programs are executing, receiving a specification defining types of state information, receiving an indication that an event associated with at least one of the computer programs has occurred, the event associated with execution of a function of the computer program, collecting state information describing the state of the execution of the computer program when the event occurred, generating an entry corresponding to the event, the entry including elements of the collected state information, the elements of state information formatted according to the specification, and storing the entry. The log can be parsed to generate a visualization of computer program execution.

The invention relates to a debugging system and a debugging method of a multi-core processor. The debugging system includes a debugging host, a target processor, and a mapping and protocol conversion device. The debugging host includes a debugger, and the target processor includes a plurality of cores. The mapping and protocol conversion device is connected between the debugging host and the target processor, identifies a core architecture to which each of the cores belongs, and maps each of the cores respectively to at least one thread of at least one process according to the core architecture to which each of the cores belongs. Afterwards, the debugger executes a debugging procedure on the target processor according to the process and the thread corresponded to each of the cores.

Examples of techniques for ticket event modification for a ticket for a problem tracking system are disclosed. In one example implementation according to aspects of the present disclosure, a computer-implemented method may include: generating the ticket, the ticket comprising a ticket event; presenting the ticket comprising the ticket event to a user on a display; responsive to receiving a request from the user to modify the ticket event, modifying the ticket event while preserving an unmodified ticket event; and presenting the ticket comprising the modified ticket event to the user.

A method of providing a backdoor interface between software executing in a virtual machine and a hypervisor executing on a computing system that supports the virtual machine includes trapping, at the hypervisor, an exception generated in response to execution of a debug instruction on a central processing unit (CPU) by the software; identifying, by an exception handler of the hypervisor handling the exception, an equivalence between an immediate operand of the debug instruction and a predefined value; and invoking, in response to the equivalence, a backdoor service of the hypervisor using state of at least one register of the CPU as parametric input, the state being set by the software prior to executing the debug instruction.

The one or more processors of an electronic device execute program code. While executing the program code, measurements are performed on the electronic device to obtain first data. Further, execution of the program code is monitored to obtain second data, e.g., debug information. The measurements are coordinated with the monitoring of the execution of the program code.