Each of these tasks iterates with others from Contract Award through system delivery and acceptance. in .NET

Printing code 128 barcode in .NET Each of these tasks iterates with others from Contract Award through system delivery and acceptance.
Each of these tasks iterates with others from Contract Award through system delivery and acceptance.
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Task 1: Establish User Mission RAM Requirements
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The objective of Task 1 is to develop or contract the development of objective, quanti able performance-based RAM requirements necessary and suf cient for procurement or development actions. This requires mission analysis of the item or system within its prescribed OPERATING ENVIRONMENT use cases and scenarios. The challenge for the Acquirer (role) is to collaborate with the User to understand and objectively: 1. Specify the minimum, quanti able, and affordable mission reliability that satis es budget and schedule constraints. 2. Allocate the appropriate RAM requirements to the various System Elements. Accomplishment of these two objectives is a highly iterative and time-consuming process.
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Reliability, Availability, and Maintainability
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When specifying RAM, SEs and Reliability and Maintainability (R&M) Engineers have to answer a challenging question: WHAT level of RAM is the minimum required for a system or product to accomplish a mission of a speci ed duration in a prescribed OPERATING ENVIRONMENT This is the hard part for SEs and R&Ms that often requires extensive analysis, modeling, simulation, and collaboration with Users the operators and maintainers. Every system has its own unique applications, system mission use cases and scenarios, mission objectives, priorities, and values to the Users. So, the answer to this question resides in high-level SE concepts that must be quantitatively translated into objective capability and performance requirements. Create the Initial Reliability and Availability Starting Points. As an initial starting point, you must identify a system reliability number that expresses the probability of mission success required of the item. You also need to select an availability number based on the criticality of the SYSTEM to support the mission. Finally, you need a maintenance concept that describes the philosophy of maintenance. Author s Note 50.5 For this rst step most people are reluctant to pick a reasonable number. From an engineering perspective, you need an initial starting point and that is ALL it is. Unfortunately, there are those who criticize these efforts without recognizing that it may not be the end game reliability number; it is only a starting point . . . Nothing more, and nothing less. Establish Development Objectives and Constraints. One of the key User objectives is to minimize system or product life cycle cost. Inevitably, there are trade-offs at high levels between system development costs and support costs. Depending on the type of system, 60% to 70% of the recurring life cycle costs of many systems occur in the System Operations and Support Phase (O&S). Most of these costs are incurred by system corrective and preventive maintenance. (Refer to DSMC, Acquisition Logistics Guide, Fig. 13-1, p. 13 6, and Fig. 20-2, p. 20 3.). So, you may have to make trade-off decisions for every dollar you spend on design reliability. WHAT is the cost avoidance in maintenance and support costs Let s explore this point further. Using the illustrative example of Figure 50.10, let s increase the design reliability of a system or product its system development cost. We should then expect a corresponding decrease in the system maintenance costs. If we sum the nonrecurring system development cost and system maintenance costs over the range of reliability, we emerge with a bowl-shaped curve representing total life cycle cost, or more appropriately the total ownership cost (TOC). Ideally, there is a Target Reliability Objective, RA, and a Target LC Cost Objective, CA, that represent the minimum TOC (A) for the User. These objectives, in combination with the core RAM criterion of identifying the reliability level, should form the basis for specifying RAM requirements. Philosophically, the TOC minimization approach assumes that the User, by virtue of resources, has the exibility to select the optimal level of reliability. However, as is typically the case, the User has limited resources for how much reliability they can afford up front as system development costs. Depending on the operational need(s) and level of urgency to procure the system, they may be confronted with selecting a more affordable reliability, RB, based on system development cost limitations that result in a higher than planned system maintenance cost (MAINTB) and a higher TOCB. For innovative organizations, this presents both an opportunity and a challenge. For organizations that do not perform SE from the standpoint of analysis of alternative (AoA) solutions and jump to a point solution, this may be a missed business opportunity. During the AoA activity new approaches may be discovered that enables the User to minimize TOC within the constraints of system development costs.
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