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Singularity is a research operating system prototype, a prototype for the construction of dependable systems through innovation in the areas of systems, languages, and tools. At the software level, Singularity provides a feature for the construction of dependable systems through the use of software isolation for programs and the creation of user mode processes that are isolated from system and application code. Singularity provides an operating system kernel, a device driver API, and a development environment. The kernel is a system process that enforces systemwide isolation. The kernel provides multiple threads of execution that create user-mode processes that are isolated. We call the process containing the user code and kernel a Software Isolated Process (SIP). In Singularity, the kernel is focused on ensuring strong system-wide isolation and user process isolation from system and application code. The kernel consists of two main components, the kernel’s services and the code that implements the kernel’s services. The kernel services provide programmatic services to user processes and devices. The kernel implements three important services: the SIP primitives, process management, and memory management. We build support for the creation of SIPs in C++, and we build test harnesses that can be used to verify that the SIP primitives have been correctly created and that our architecture supports software isolation. This section specifies the current Singularity implementation of these services. In future versions we will add many enhancements. Software Isolated Primitives: The kernel’s services include the primitives necessary for writing SIPs. Singularity provides the kernel primitives and the runtime primitives. The kernel provides the SIP primitives that are necessary to create, destroy, and communicate with SIPs. An SIP uses the kernel primitives to synchronize with the kernel’s control flow and to communicate with the kernel. An application using the Singularity kernel primitives needs only to provide the runtime primitives and is not required to use the kernel primitives. Runtime Primitives: The kernel provides runtime primitives for users to communicate with the kernel and SIPs. Singularity provides generic primitives that are not specific to any programming language. Runtime primitives enable us to abstract out much of the support for a programming language. Runtime primitives are critical to writing high-quality applications in Singularity. Runtime primitives are currently implemented in C++ for the Windows platform. Dependability API: The Singularity kernel supplies a device driver API that can be used to write device drivers. The kernel

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The goal of the Singularity Research Development Kit is to assist researchers in their efforts in doing research and development in the area of reliable software. The Singularity Research Development Kit is a research kernel that supports scientific research in computer science and is designed to aid the research community by providing a very high level programming language that runs on a virtual machine. The user programming language is called F# and is based on.NET. F# is a statically typed functional programming language, which means that it forces you to specify types. The user programming language is object-oriented by default (like Ruby or Java) but it is highly object-oriented functional. This language uses an IMHO language extension called FPOW, which is best explained in a video: Functional programming is hard and FPOW extends F# to provide a minimal imperative programming language. F# is a highly customizable language. The tool chain in Singularity use F# extensively. This allows users to (re)write the language compiler, interface to other languages, compilers for other languages, user interface, libraries, operating system kernel, etc. Singularity’s kernel is written using the Rust programming language and the kernel is expected to be highly performant, memory-efficient, and the like. The kernel’s internals are written in Rust because of its superior memory management. Rust’s unique, automatic memory management prevents data race problems which occur in languages which use reference counting (such as Java). In general, the kernel is written to be very portable and it is expected to be very portable and to support 64 bit computing efficiently. To support multicore computing, the kernel can use the Workstation Multitasking System (WMS), a system for efficiently partitioning memory into independent application space and the shared kernel space. The kernel also supports natively running two OSes inside of itself. For example, the Linux 3.0.0 kernel has the Xen virtualization inside. The kernel can also support unikernel programming where it cannot be shared between OSes. The Singularity kernel supports highly secure software isolation because it enforces very strong memory protection, virtualization, and a very large address space. For example, the kernel enforces a model where virtual memory is mapped through the virtual instruction set. Singularity supports the On-Demand Synchronization Programming model, which works by automating the 91bb86ccfa

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Singularity is designed to support modular hardware/software designs. As a result, we are supporting several divergent hardware designs with versioned drivers, including: * Chip select multiplexers * PCI express bus * Real time clock The RDK will support a number of software environments, including: * C and C++ with embedded systems toolchains * LLVM C front ends, including: * C front end * LLVM-based front end * LLVM-based back end * Objective C front end * Objective C back end The fundamental principles that guide the design of Singularity: * Leverage existing platforms: Using existing systems as much as possible simplifies development. For example, we can place drivers on top of Linux’s existing PCI card, network drivers, and firmware, and rely on Linux’s existing device drivers to manage user interactions and separate system-level traffic from user-level traffic. * Derive benefits from our experience: Our experience with system interfaces, chip-level drivers, and high-level systems interfaces provides us with a deep understanding of what is needed to build effective and reliable systems. * Organize research efforts efficiently: We have more long-term investments than short-term investments; we believe in long-term research projects and focused efforts over long-term goals that we want to meet. As a result, we are focused on building broad technologies, such as the RDK, to support future development. We build a long-term research operating system platform to do more than one project. * Share resources and costs across projects: R&D funded by different government agencies and companies can be more coordinated if they all use the same technology. Researchers may be able to avoid duplicating effort if the tools and platforms they are using are similar. Using cross-sector funding also leads to the collection of data and sets of interesting problems that can be used by others. * Leverage emerging technology: Emerging technology such as microprocessors and networking are useful for Singularity. We are developing hardware abstraction, communication technologies, and data flow analysis to be able to analyze the behavior of more complex systems. Background The world is experiencing an information revolution. Higher bandwidth and lower cost communications infrastructure makes available a broad set of tools for communicating information at scale. We now have the ability to collate, share, and compare large numbers of information across large distances. We are collecting information about everything from gene sequencing to music and image

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Singularity provides a research operating system prototype. Our primary focus is on the construction of dependable systems through innovation in the areas of systems, languages, and tools. A research operating system prototype (called Singularity) is a computer operating system built entirely as a dependable system. It supports a dependable application framework, consisting of a programming language, runtime, and tools for system and process management. Singularity’s architecture and security features are based on ideas from the research community and from the detection and correction of processor errors. The approach is to construct a system that (a) transparently protects program data and instruction execution from data corruption from hardware, (b) detects and corrects memory corruption by hardware mechanisms, and (c) provides a precise isolation mechanism for reliable programs. Currently, Singularity provides strong computer memory management, has been developed in safe languages, has a secure kernel and high-level application framework, and requires few hardware mechanisms to provide reliability guarantees. Our primary focus in the Singularity research project is on the development of new techniques and tools for specifying and verifying behavior of dependable systems. Our plan is to explore new ideas and new languages. We plan to construct an enhanced kernel for Singularity with a userland application framework. The first goal of the project is to create Singularity, an OS dependable system. The second goal is to build dependable systems that support dependable applications. License License: Singularity is distributed under a BSD 3-clause license. The initial source code, file history, and distribution are available with few modifications. The only changes are: 1. The homepage address has been changed from to 2. Links to the Singularity download site and the Singularity home page have been added to the README file. 3. The copyright notice has been changed to reflect that all code in Singularity is copyright by the University. 4. The license statements have been inserted at the top of each source file. 5. The copyright notices are unchanged, except that the University of Michigan has added University of Michigan Copyright Notice and the has added the Copyright Notice URL. Type System Implementation: The Singularity kernel is implemented in C language, which is based on the language reference that supports a software-modeled type system. A major tenet of our design is that the type system is declarative: you specify types and

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Can be installed on any type of dual-boot or hard drive configuration and on any kind of hardware. The only requirement is that the system should support a minimum of 1GB of RAM. The sizes below are the minimums and are rounded up to a multiple of 1GB to make it easier to compare, as the RAM can be divided into any size that makes sense. For example, 32GB is usually considered to be the minimum size for “1GB or larger.” Minimum Storage: The installation process itself will guide the user with estimated file sizes. However

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