TickIT International 3 13 15 Our feature article this edition is all about testing – not how to do it but how to prepare and manage it. Testing is a crucial stage in the development and deployment of IT systems, but how seriously is this viewed as a highly skilled profession? Do we train our testers sufficiently to equip them with the skills needed to do the job properly? Is the profession recognized and does it have the kudos that other IT functions enjoy? These are all issues that Richard Knight addresses in his article ‘Assurance and Test – People and Skills’. TickIT Plus development is hotting up so Derek Irving is back to give an update on progress. Finally, one of the invaluable project management tracking processes is that of tracking Defect Reports. These have to converge towards zero outstanding to support a release or update of a system. But are we able accurately to� ��� predict just when this will occur so we can set our customer’s expectations confidently? Well, Eduardo Miranda provides us with a tutorial on using Line of Balance to achieve this. Mike Forrester 3Q08 TickIT International The quarterly journal of the TickIT software quality certification scheme ISSN 1354-5884 This publication is a means of communication with all TickIT-registered organizations and TickITminded individuals throughout the world. It also acts as an information exchange and soundingboard for anyone committed to IT quality. The editorial team always welcomes input and comment. As editor I will invite comment and debate on specific issues within each edition so as to develop thinking and promote excellence within our industry. To make comment or provide input please to e-mail the team. click here All copy and letters to be sent to the editor, at the following address: TickIT Office, BSI, 389 Chiswick High Road, London W4 4AL. 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Opinions expressed in this publication are not necessarily those of BSI. 3Q08 Assurance and Test – People and Skills Assurance and Test – People and Skills by: Richard Knight Purpose The purpose of this paper is to present a framework for viewing the relationship between training and alignment with business objectives linked to a level of professionalism in the IT industry, in particular the software testing and assurance sector. Business Objectives and Professionalism Organizations have the objective of being able to implement, quickly and efficiently, systems that support their business processes and corporate objectives. To do this, it is recognized that the IT staff involved must be appropriately conversant with all phases and activities of the Software Development Life Cycle, and to be able to exercise their skills such that systems are delivered to meet requirements in an effective and efficient manner. In addition, organizations have also recognized that growing the internal capability of their staff should help define and build the right career path and opportunities to ‘up skill’ their staff, increase organizational capacity and, significantly, aid staff and knowledge retention. To this end, a key ‘people’ strategy can be seen as having a ‘team of people within the organization’ who: • fulfil the core-competencies of different IT roles, • meet the needs of the processes and toolsets used to underpin the life cycle, • understand and possess the skills that are pertinent to the life cycle stage they work in and the activities that underpin it, • are multi-skilled, • add value to the business. In the same way, the nature and scope of the IT industry has changed significantly, and continues to expand for both embedded and IT systems: • it is increasingly pervasive; year on year, the number of IT systems and embedded systems continues to grow, • the business complexity and technical complexity of the projects in which we are engaged is increasing, • the customers for IT are a wider group – global society rather than ‘just’ business and government so the impact of software failure is more public, • the customers require higher level quality attributes to support the complexity and change in their lives, so increased reliability, maintainability, usability and performance characteristics are required. If any of these pertained, the demand for testing would increase. In fact all of them pertain; therefore we have a multiple increase in demand for software quality. This had led to an increased demand for software testing which may be dealt with in a number of ways: • Increasing the number of software and system testers, which implies that either we can tempt people with high aptitude from other industries/activities or we drop the aptitude level for entry to the industry. The first requires the incentive of joining a profession with status and rewards. The second requires a differentiation between profession and trade levels to protect customers, by allowing entry to roles by skill and experience. • Increasing the efficiency and effectiveness of existing software and system testers, which implies education, training, coaching and mentoring, resulting in recognition and evidence of professional competency and certification of trade/craft skills. • Improving the methods and tools used in software and system testing, which implies continuous development of the industry, including research and development supported by professional bodies. • Increasing the scope and maturity of software and system testing, which implies increasing the understanding of the technical and business aspects of quality, society’s needs, and business and delivery programmes; this would be supported by a professional understanding of the testers’ role and by earlier engagement in projects to take preventative measures. 3Q08 Assurance and Test – People and Skills We also need to increase trust in our abilities. Other IT professionals, our customers and the general public need to be able to trust us and to be aware of what services we provide. We need to support this trust with awareness through increased and assured levels of competence, a clear ethical commitment, and awareness of the needs of wider society, together with improvement through research and development. To support this, professional status is needed. In contrast to this need for professionalism, anyone can ‘…Classically, there were only three claim to be a tester and start to charge for their services. professions: ministry, medicine, and law. There are at present no rules, training or mandatory These three professions each hold to a certification and employers often have low expectations of specific code of ethics, and members are almost the skills and knowledge required. To address this, various universally required to swear some form of oath software testing training and certification schemes have to uphold those ethics, therefore ‘professing’ been started by different groups. to a higher standard of accountability. Each of These include the ISEB (Information Systems these professions also provides and requires Examination Board), ISTQB (International Software extensive training in the meaning, value, and Testing Qualification Board, IIST (International Institute importance of its particular oath in the practice for Software Testing), CSTP (Certified Software Testing of that profession. …’ Professional), AST (Association for Software Testing) from the Wikipedia definition of ‘Profession’ (open certification) and ASQ (American Society for Quality) schemes, as well as courses which do not lead to examination and certification. I must declare an interest here; I have contributed to certification scheme syllabi, worked with the accreditation panel for a particular scheme, written, contributed to and presented courses for certification courses, and I work for a training provider. My own view is that each of the current schemes has advantages and disadvantages – but I do not have room to describe, compare and contrast them all in this paper! Views of the efficacy and usefulness of the schemes vary enormously. Some people in the industry argue that certification is not necessary; others argue that it is necessary but the current schemes are not adequate and some champion a particular scheme. The purpose, benefit, content, style of examination, degree of independence of the examiner from the course provider, amount of practical work, ability of the examination to demonstrate the competence of the candidate – all these vary across the schemes and are hotly debated in the software testing industry, just as they have been in nursing, teaching and other aspirant professions. Nevertheless, this need for training has led to the development of a generic training route map (see Figure 1). Figure 1 – Generic Training Route Map Assessment Assessment in the form of the availability of people with the relevant technical skills and business knowledge, to support projects/programmes for all stages of the development life cycle, should be risk assessed when project 3Q08 Assurance and Test – People and Skills plans and project test strategies are being written, and development and test teams are being formed. In fact, this is a requirement in the IEEE 829 standard for software test plans. Low skill levels, poor communications, and a de-motivated workforce should also be considered as additional risks. Role-Based Road Maps These describe the key skills and training for the typical roles on an IT project. A good benchmark is the BCS Skills Framework for the Information Age (SFIA): www.bcs.org/sfiaplus. Learning Content The learning content should be driven by the specific business needs and IT development environment of the organization. To be an effective tester demands a subtle blend of business and application knowledge and technical awareness, dependent on what level of testing is being undertaken. Multiple Delivery Options For effective training to be achieved the trainer needs to be aware of the different learning styles and delivery methods preferred by the target audience. Ongoing Self-Enablement One of the key concepts of ‘ongoing self-enablement’ is the practice of Continuing Professional Development (CPD). CPD is a combination of approaches, ideas and techniques that help manage your own learning and growth. The focus of CPD is firmly on results and the benefits that professional development can bring in the real world. Perhaps the most important message is that one size doesn’t fit all. Wherever you are in your career now, and whatever you want to achieve, your CPD should be exactly that: yours. CPD isn’t a fixed process; it’s a question of setting yourself objectives for development and then charting your progress towards achieving them. It’s about where you want to be, and how you plan to get there. The approach should focus on outcomes and results, rather than ‘time spent’ or ‘things done’, or how many boxes you tick on a form. CPD is about capturing useful experiences and assessing the practical benefits of what you have learned. There is one decisive question that you should ask yourself to evaluate every piece of learning: What can you do now that you couldn’t do before? Similarly, when you record your CPD, it’s the value of the activity that counts. It’s not what you did, but how you can use what you learned. Should You Keep a CPD Record? As a professional, you have a responsibility to keep your skills and knowledge up to date. CPD helps you turn that accountability into a positive opportunity to identify and achieve your own career objectives. At least once a year, you should review your learning over the previous 12 months, and set your development objectives for the coming year. Reflecting on the past and planning for the future makes your development more methodical and easier to measure. This is a particularly useful exercise prior to your annual appraisal! Some people find it helpful to write things down in detail, while others record ‘insights and learning points’ in their diaries as they go along. This helps them to assess their learning continuously. These records and logs are useful tools for planning and reflection: it would be difficult to review your learning and learning needs yearly without regularly recording in some way your experiences. It is also a requirement of many assessment schemes (ISO, CMMI, TMM and TickIT) that training records are maintained and that this assessment is undertaken at both an organizational and individual level. Certification The basic level of certification tends to the BCS ISEB Foundation Certificate in Software Testing (www.bcs.org/ server.php?show=nav.6942 ). In fact, the recent Code of Best Practice for Software Testing produced by Intellect (recently featured in TickIT International) highlighted this as one of the major ‘commitments’: Approach for a Business-aligned Framework This section provides a proposed approach for organising, managing and developing the skills and careers for professionals working in assurance and testing across an organization consistent with a typical testing policy and test strategy as referenced in both the ISEB/ISTQB certification schemes as detailed at: www.uktb.org.uk 3Q08 Assurance and Test – People and Skills Commitment 3 – Resourcing and Professionalism When undertaking testing projects we will ensure that all staff assigned have appropriate qualifications and experience. ‘We will ensure that our staff acquires relevant professional qualifications such as the BCS ISEB Foundation Certificate. We will encourage them to develop and maintain individual competencies by regularly attending training events or conferences. Staff assigned will have experience suitable to the nature of the work being undertaken. Professionalism in testing will demonstrate objectivity and communication in ways that are clear, precise and jargonfree. Good testers are thorough and diligent, have initiative, understand IT and business, are goal-aware, have commitment to timescales, and accept responsibility for their work. Testers must own all observations and faults they raise and remain involved until a satisfactory outcome is reached.’ The main elements of the approach are: • assurance and testing affects everyone on a project, testing professionals and non-testing professionals alike, • to support the objective of detecting faults as early as possible, • the need to ensure that assurance and testing is regarded as an integral part of everyone’s role, • skills and training, • raise the profile, credibility, and attractiveness of assurance and testing as a profession, • create a flexible and effective testing ‘resource pool’ through: – effective resource utilization and management, – adopting a ‘job rotation’ model, thereby broadening experience and raising skill levels. Assurance and Testing Roles Everyone on a project has a stake in assurance and testing. Different people from the testing discipline and other disciplines (such as requirements analysis, development, architecture and the business representatives) need to be involved, at different times, and performing different (but complementary) activities throughout the assurance and testing life cycle. Each individual’s involvement and the activities he/she performs on a project are defined in a ‘role’. Typical assurance and testing roles on projects include: • review leader, • test automation specialist, • review SME, • test data specialist, • reviewer, • environment manager, • component/unit test analyst, • security test manager, • test manager, • performance test specialist, • test team leader, • usability test specialist, • test analyst. Roles should be distinct from the individuals’ job titles. Some of these may be taken up by people from any discipline (for example, inspection can be taken up by someone from the technical architecture discipline, the requirements analysis discipline, or the testing discipline). There are others, however, that can only be taken up by people from a particular discipline (for example, test manager can only be taken up by someone from the testing discipline). Full information on a Skills Framework for the Information Age (SFIA), the high level UK governmentbacked competency framework describing the roles within IT and the skills needed to fulfil them, is available from the British Computer Society website www.bcs.org/sfiaplus. Skills and Training There should be two aspects of skills and training, they are: •career-based – those required for career development (within a job family), •project-based – those required specifically for a project. Career-based skills and training should be specified in a ‘������������������������������������������������� job family��������������������������������������� ’ to which individuals belong, whereas project-based skills and training should be specified by the individual project to which the individual is assigned. In addition, everyone carrying out assurance and testing activities (including the business user) should 3Q08 Assurance and Test – People and Skills be trained and skilled in the processes and tools required to support risk-based assurance and testing. Also, people from the development discipline and the business support area should be trained in assurance and testing techniques relevant to their level of involvement. Testing Discipline A Testing Community By combining all those identified from a typical company organization chart as being involved in assurance and testing a cohesive ‘testing community’ can be established for an organization. This should be a logical entity in which testing professionals can: • have a sense of belonging (to a larger group of like-minded people), • share knowledge and experiences, • encourage and develop ‘best practice’. Core Skills, Training and Qualification of Testing Professionals There are fundamental skills that are needed by all testing professionals, regardless of role and grade, which include the following: • general IT skills, for example, Microsoft Office, Internet/intranet, • knowledge of the systems (and applications) development life cycle, • knowledge of quality and assurance and the important part testing plays in both, • knowledge of risk management and a risk-based test process, • effective communications, • effective presentations, • effective teamwork, • negotiation skills, • low level test techniques. The Information Systems Examinations Board (ISEB) of the BCS offers qualifications widely recognized by the IT industry around the world which include Software Testing: • ISTQB Foundation Certificate. • ISEB Practitioner Certificate. It should be noted that the current ISEB Practitioner is being replaced by similar qualifications from the International Software Testing Qualifications Board (ISTQB) during 2008. As a minimum, everyone in a ‘testing community’ should have, or plan to obtain, the foundation certificate, whilst professionals in more senior roles should have or plan to obtain the practitioner certificate. The most senior professionals should aim for the ISEB Diploma in Software Testing when it becomes available. Relationship with Other Disciplines The testing discipline on a project cannot function effectively and efficiently in isolation, it is essential that it ‘works’ in collaboration with all of the other disciplines on projects, particularly project management, requirements analysis, architecture, design and development. It is important that the testing discipline is proactive in involving other teams at appropriate times to add value to the assurance and testing life cycle. Similarly, the testing discipline should provide help and advice, including training in specific assurance and testing skills, to other disciplines on a project. These decisions should be documented in the project test strategies and included in the project test plans. Other Disciplines Professionals from other (than testing) disciplines should play a major part in the assurance and testing process, particularly during the static testing stages. They include: • project/programme managers, • requirements analysts, • technical architects, • designers, • developers, 3Q08 Assurance and Test – People and Skills • business representatives, • live service support analysts. For these people, assurance and testing should not be a full-time role, but an important part of their role nonetheless. The level and extent of participation will vary depending on the individual’s role in these activities. Skills and Training for Other Professionals People from other (than testing) disciplines will also need to be educated in the importance of assurance and testing and the principles of an assurance and test strategy. In addition they will need training in a review process and techniques. Additionally, for developers, they will need training in low-level component testing techniques, including static analysis and dynamic testing. Assurance and Testing Techniques For the static testing stages to be effective, people from other disciplines will also need to be trained in the techniques used for static testing, such as: • inspections (Fagan), • reviews, • walkthroughs, • static analysis. Developers would also require training in the principles of (dynamic) testing and the low-level component testing techniques in particular. More information on assurance and testing techniques and recommended training courses can be found from most testing websites, for example: www.testing-solutions.com Updated Learning Route Map/Framework The key is alignment: • business initiatives, • staff objectives, • learning and development objectives. This leads to real practical benefits to both the individual and the business, skilling staff and organizations to bring about self-sufficiency using the framework shown in Figure 2. It is provided by a mix of tutor-led and self-study training supported by active mentoring to: • skill the organization, • skill the people, • meet corporate and individual objectives, • measure the training effectiveness. Training Needs Analysis (TNA) To establish and realize all the benefits of a cohesive, flexible and agile testing resource pool, organizational and process changes may be necessary. These changes should be designed to move towards a job-rotation/ assignment-based model, the main elements of which are the alignment of objectives: • business objectives and initiatives, • learning and development objectives, • staff objectives. To make individuals ‘flexible’, that is, their work could be assignment-based or include ‘tours of duty’ in deferent teams/departments being able to work on different projects across testing teams, thus widening and increasing the level of skill and experience of both the individual and the resource pool as a whole. This TNA is normally documented by SMART objectives at the annual staff appraisals (which can also be included in the ‘assessment’ phase in the generic route map). Certification As already mentioned, one aspect of certification is the linkage to external schemes such as ISEB/ISTQB, but this is just one element of an overall certification framework. Many leading organizations are now adopting the concept of an internal ‘training academy’, where the training is strongly aligned to specific business needs and deployed with a blended approach of ‘hands on’ practical experience and ongoing assessment and support in the workplace. 3Q08 Assurance and Test – People and Skills Training needs analysis Planning Business initiatives Validate Learning and development objectives Modular career development portfolio Skilled practitioners Staff objectives Certification ISEB/ISTQB syllabi External scheme Internal scheme Accredited tutors Delivery & Project Management Instructor led Online Client-specific customization Mentoring Figure 2 – Updated Learning Route Map/Framework Mentoring and Coaching Mentoring is a long-standing form of training, learning and development and an increasingly popular tool for supporting personal development. In a recent learning and development survey in 2007, the Chartered Institute of Personnel and Development (CIPD) grouped coaching and mentoring together. However, mentoring is a distinct activity. Mentoring has become a widespread development tool, and we all know of famous mentoring relationships. Ian Botham, for example, was mentored by Brian Close, Kevin Keegan by the great Bill Shankly. There are many business mentoring relationships, notably Chris Gent and Arun Sarin at Vodafone, even Alan Sugar and his apprentices! – as well as many examples from politics and other fields. There is some confusion about what exactly mentoring is and how it differs from coaching. Broadly speaking, the CIPD defines coaching as: ‘developing a person’s skills and knowledge so that their job performance improves, hopefully leading to the achievement of organizational objectives. It targets high performance and improvement at work, although it may also have an impact on an individual’s private life. It usually lasts for a short period and focuses on specific skills and goals.’ Traditionally, mentoring is the long-term passing on of support, guidance and advice. In the workplace it has tended to describe a relationship in which a more experienced ‘skilled practitioner’ uses their greater knowledge and understanding of the work or workplace to support the development of a more junior or inexperienced member of staff. This comes from the Greek myth where Odysseus entrusts the education of his son to his friend Mentor. It’s also a form of apprenticeship, whereby an inexperienced team member learns the tricks of the trade from an experienced colleague, backed-up, as in modern apprenticeship, by off-site training. Mentoring is used specifically and separately as a form of long-term tailored development for the individual which brings benefits to the organization. The characteristics of mentoring are: 3Q08 10 Assurance and Test – People and Skills • it is essentially a supportive form of development, • it focuses on helping an individual manage their career and improve skills, • personal issues can be discussed more productively unlike in coaching where the emphasis is on performance at work, • mentoring activities have both organizational and individual goals. Table 1, adapted from Alred et al3, highlights the differences between mentoring and coaching. It is separate and distinct from coaching, but coaching and mentoring can often overlap. Mentoring Coaching Ongoing relationship that can last for a long time Relationship generally has a short duration Can be more informal and meetings can take ��������������������������������������� Generally more structured in nature and place as and when the mentored individual needs ������������������������������������� meetings scheduled on a regular basis some guidance and or support More long-term and takes a broader view of ����������������������������������� Short-term (sometimes time bounded) the person. Often known as the ‘mentee’ but ������������������������������������������������ and focused on specific development areas/issues the term client or mentored person can be used Mentor usually passes on experience and is ������������������������������������������� Not generally performed on basis that coach normally more senior in organization������������������������������������������� needs direct experience of client’s formal� occupational role The focus is on career and personal development Focus generally on development/issues at work Agenda is set by the mentored person with the ����������������������������������������������� Agenda focused on achieving specific, immediate mentor providing support and guidance to prepare ����� goals them for future roles Revolves more around developing the mentee ������������������������������������������������ Revolves more around specific development areas/ professionally issues Table 1 – The Differences Between Mentoring and Coaching Developing a Mentoring Approach In Everyone Needs a Mentor1 Clutterbuck describes how mentoring works and the business benefits of the approach. Benefits to the Organization Are: • significant impact upon recruitment and retention (one study found that the loss of young graduates in the first expensive post training year was cut by two thirds), • effective succession planning, • makes organizations adapt to change, • increased productivity through better engagement and job satisfaction. Benefits to the mentored person are: • development outcomes which may include, knowledge, technical and behavioural improvements, • better management of career goals, • developing wider network of influence, • increased confidence and self awareness which help build performance and contribution, • mentors also benefit from the satisfaction of developing their colleagues and of passing on their knowledge, skills and expertise, • line managers and HR also benefit from better employee focus and engagement. 3Q08 11 Assurance and Test – People and Skills Measurement of Success The measurement of success of training effectiveness can be seen at both the company and individual level. The Development of Thinking on Evaluating Training In 1959, Kirkpatrick2 first outlined four levels for training evaluation: • reactions – ‘liking or feelings for a programme’ known as ‘happy sheets’, • learning – ‘principles, facts and so on absorbed’, • behaviour – ‘using learning on the job’, • results – ‘increased production, reduced costs, and so on’. For the next 45 years the evaluation of training moved on very patchily in terms of research and new ideas, and poorly in terms of practical application. In 2007, however, the CIPD produced a new ‘partnership of learning model’ which emphasizes the need for all those involved in learning interventions actively to play their part. The model is shown in detail in The value of learning: a new model of value and evaluation3. This contains four strands: 1. proving, 2. improving, 3. learning (reinforcing), 4. controlling. And involves all the stakeholders, the employer, line manager, individual learner and the trainer/facilitator. Company-wide KPIs Some Practical Tips: Once a possible shift from ‘happy sheets’ to follow-ups is accepted, the what and how of information gathering about the value of learning (and improved event design) become much easier. The ‘what’ must include management information about issues important to the organization. And the initial question to put to hard-pressed senior managers is: What measurable results (both short-term and long-term) from the learning function would you like to see for your area of responsibility? Some possible measures, related to each of the four main purposes for evaluation, are: Relatively ‘hard’ metrics Relatively ‘soft’ measures Proving – relating training to Improving – relating training to • data about reduced production and process �������������������������������������������� • indications of greater harnessing of other costs (or times) �������������������������������������������� available learning and development processes •���������������������������������������������������������������������������������������������� increased sales, market share, numbers of ��������������������������������������������������� • more courses perceived to be effective, valuable, new customers, and so on ��������������������������������������������������� truly tailored, organizationally-focused, and so on •��������������������������������������� increased service quality, stakeholder satisfaction����������� , and so on Controlling – relating training to Learning (reinforcing) •������������������������������������������������������������������������������������� reduced problems – for example accidents ������������������������������������������� • continually-improving skills/competencies following health and safety training, grievances ������������������������������� – for example, better analysis, following employee relations training ����������������������������������� problem solving and decision making •�������������������������������������������������������������������������������� shorter, ‘smarter’ courses ���������������������������������������������������� • evidence that people are deriving a multiplicative •������������������������������������������������������������������������������ more comprehensive / equitable training – ���������������������������������� effect from combining courses with for example, covering all staff, access to ������������������������������ learning on the job, coaching, prestigious events for those truly in need/able ������������������������������������� personal development plans, and so on to apply the learning������������ , and so on� 3Q08 12 Assurance and Test – People and Skills The ‘how’ includes gathering feedback from two major stakeholder groups: learners and their managers. The main ways are: • questionnaires from the learning function, • interviews and focus groups, • feedback from performance reviews, • one-to-one discussions between managers and their staff, • self-reporting by learners. Individual Assessment of Training This is normally undertaken by the individual as part of their ongoing CPD using the concept of ‘reflective learning’. Reflecting on your learning enables you to link your professional development to practical outcomes and widens the definition of what counts as useful activity. Quite simply, you need to keep asking ‘what did I get out of this?’ Good Evaluation Questions: 1. What was the most important or valuable learning for you? Why? How did you learn this? – reflecting on the immediate past experience and looking for insightful, long-lasting ‘ah-ha’ moments that help people to see that they can learn, and how they learn. 2. How can you apply what you learned to the needs of your job, your team/department, and the priorities of the business? – thinking about the present and looking for wider learning application and its relationship to the business and its chosen metrics. 3. How could you integrate what you learned into further learning opportunities available to you, and the developing requirements of your job, your team/department, the organization as a whole? – pointing to the future and looking for the multiplicative effects of the variety of ways people can learn. As a reflective learner, you’ll think about how you’ll use new knowledge and skills in your future activities – so learning is always linked to action, and theory to practice. It’s also useful to reflect on how you learn best. This may be through private study, networking with peers, formal courses, mentoring, or a combination of techniques (including informative professional magazines like TickIT International). To Conclude Why is it important for me to reflect on my learning? • to accept responsibility for your own personal growth, • to help you see a clear link between the effort you put into your development activity and the benefits you get out of it, • to help you see more value in each learning experience, by knowing why you’re doing it and what’s in it for you, • to help you ‘learn how to learn’ and add new skills over time in your quest to become a valued ‘professional’. References Clutterbuck D ( 2004) Everyone needs a mentor, published via the CIPD Kirkpatrick, D.L.(1959) Techniques for evaluating training programs. Journal of the American Society of Training and Development. Vol 33 3 CIPD The value of learning: a new model of value and evaluation, via the Chartered Institute of Personnel and Development (2007) Learning and development annual survey. 1 2 3Q08 13 TickIT Plus Progress Report Richard S Knight has over 45 years’ experience in the computer industry, and has performed a wide range of jobs from quality manager, trials engineer and technical costs consultant with MoD and various government departments to Director of Risk Management at Ernst and Young. He has worked in a broad range of industry sectors from space and defence at Logica to high integrity banking and insurance systems, healthcare, automotive, energy through to broadcast and media. He has also experienced working across the UK, Europe, Australia, Japan, Russia and the USA and so has practical cultural diversity and communication skills. As a qualified electrical/electronics engineer and ISO 9000, CMMI, TMM EFQM and ex-TickIT assessor, he has a wide range of experience with different software development models from V to Agile together with ‘hands on’ experience for both people and process improvement. On the training and skill transfer front he has devised and delivered a range of training courses covering project management, risk management total quality and value management, customer relationship and account management, Six Sigma for software and agile systems development and testing. Currently with Testing Solutions Group as Head of Consultancy Services he specializes in business/software and test process improvement, and is a regular trainer and coach for ISTQB Foundation to ISEB Practitioner exams. The author doing some “hands on” Richard can be contacted at: rknight@testing-solutions.com coaching! at Brands Hatch TickIT Plus – the Future of TickIT: Project Progress, June 2008 by: Derek Irving Last quarter I prepared an article on the TickIT Plus project proposals that described the basic concepts of the scheme and the proposed timescales. In this and future articles I hope to keep you up to date with developments. The TickIT scheme and this project are run by the Joint Technical Industry Steering Committee, (JTISC), administered by BSI and involving several major companies, users and industry bodies, all of whom have an interest in software and IT quality. Getting agreement on such a major change in a scheme like TickIT, with all the implications for users and with the involvement of a wide range of interested parties, was always going to be a challenge. But I’m pleased to say that a consensus has been reached and we now have agreement on the fundamental specification for the scheme. This has been achieved after months of debate, inputs from many quarters and not a few revisions along the way. It is hoped, very soon, to start using the TickIT website to disseminate much of the ongoing development information, but in the meantime if any reader wants to find out more details, please contact me – address below. Overall Progress Having the specification baselined now means we can start on the next phase of the project, namely the design of the scheme requirements, the development of training and the planning of a trials programme. Other aspects such as the development of a marketing strategy and business planning also need to be considered. To give a little more detail: • Design – this is principally the requirements for scoping, process modelling and assessment and then how this will be presented in the revized documentation format. This is only the first stage of course, but an important fundamental starting point. • Training and Auditor qualification criteria – we now have an agreed structure for this, (see below), are in contact with training providers, and IRCA and will soon have training criteria material which can be used to develop courses. • Trials – successful trials are critical for the scheme and we hope to encourage as many participants as possible, both large and small companies. At the basic level, the development of process models 3Q08 14 TickIT Plus Progress Report – fundamental to TickIT Plus – can be done in-house without the need to go any further at this stage, so the effort sought will be quite small. At the other end of the scale, we will need to conduct at least one full assessment, probably at the ‘Silver’ level to test the principals and tools. We already have a number of companies who have expressed an interest in participation and hope to confirm this with an agreed trials plan soon. The planned period of the trials is October 2008 until January 2009. • Marketing – on this front we have the support of Intellect, the UK IT industry representative, who are assisting in the development of a strategy and marketing plan. Auditor and Practitioner Qualifications How auditors would qualify under TickIT Plus was still under debate when the last article was prepared. This has now been agreed and there will be four levels of TickIT Plus qualification to match the capability grades: Bronze, Silver, Gold and Platinum. This is needed to address the various requirements of transfer, training, existing auditor gradings and the requirements of the scheme. How the auditors get to these levels is detailed in the specification documents, which again can be obtained from myself or downloaded in future. Essentially, we have tried to make it as straightforward as possible for existing TickIT Auditors to transfer at the Bronze level with minimal additional training. There will also be two levels of Practitioner grades – standard and advanced – for those who need to use the scheme as quality managers, developers, consultants and so on, but will not be conducting audits. Project Schedule As mentioned above, the planned period for the trials is between this October and January. We are looking at a public launch of the scheme in February, the provision of the first courses in April, and accreditation of the first certification body in June 2009. Still an ambitious plan, but achievable given the support available. Once the scheme is officially launched, there will be a three year migration period for both auditors and certificated organizations. Summary In future articles I hope to give, as well as a progress update, an in-depth discussion on some of the more technical aspects of the scheme as this is developed. As always, we welcome comments and suggestions from all quarters, so please contact the project either via the TickIT website or myself on dkirving@iee.org. Derek Irving TickIT Development Project Manager Software Measurement Do your capabilities match ISO 9001:2000 requirements? Measurement programme consultancy, support, set-up Visit www.qasoft.demon.co.uk DIY WORKBOOKS save time and money ISO 9001 TickIT ISO 9001 RAD ISO 9001 SSADM ISO 9001 PRINCE ISO 9001 Service Delivery Listed on the Internet http://www.nvo.com/management_systems–author E. Sutherland, IEE Ind Aff Trog Associates Ltd P.O. Box 243 UK – South Croydon/Surrey, CR2 6NZ. Tel +44 (0) 208 786 7094 Fax +44 (0)208 686 3580 Email trog@dial.pipex.com 3Q08 ISO 9000/BS7799 Guaranteed Results! • 100% clients registered first time • Consultant/Trainer since 1990 • Lead TickIT Auditor since 1992 • TEC and Business Link funded projects • Practical advice and training Consultancy Training Pre-Assessments Bal Matu BSc(Hons) C.Eng.MIIEE FIQA MAQMC Lead TickIT Auditor Tel/Fax: 44 (0)1928 723701 bal@bsmqa.demon.co.uk You are the project manager of a large project and testing is uncovering faults, trouble reports are starting to pile up and the release date is coming soon. Are they going to be fixed on time? What could you do to help? Are there any bottlenecks? Where should you assign more resources? Does this scenario sound familiar? Have you been there? This article will explain how you can answer these questions by using an old method called Line of Balance in a new way. Using LOB to Track the Progress of Fixing TRs f balance (LOB) was devised by by a given time to meet the project dead- of it, time stamping each TR as they tranmembers of a group headed by lines. In other words, although the chart sition between states. This last feature E. Fouch during the 1940’s to will give the project manager a gut feeling would allow the organization to produce production at the Goodyear Tire about the situation, it would not answer the lead-time information required by the er Company [1]. It was also suc- the questions of where are we in relation LOB method. In addition to the state and timing applied to the production plan- to where we are suppose to be, or how d scheduling of the huge Navy much better we should be doing to get information, the TR includes other data such as the severity of the problem. This by the time we want. tion program of World War II where we want to get by: Eduardo Miranda information could be used to filter the TR ng the Korean hostilities. Today, apply themagazine) LOB method to a subLife Cycle plication has been further expand- The TR (Note this article first appeared in data STSCand Crosstalk ng it suitable for a whole spec- Typically, a TR will go through a number set of all the TRs reported and in the prithe projectofmanager of astates large since projectit and testing isuntil uncovering faults;of trouble reports arefix starting which TRs to first. to pile up and oritization stages or is reported activities ranging You fromareresearch the release date is coming soon. Are they going to be fixed on time? What could you do to help? Are there any bottlenecks? elopment through job-shop and it is closed (see Figure 2, page 24). Each of The LOB Method these more statesresources? corresponds milestone in familiar? Have you been there? This article will explain Does to thisa scenario sound low operations. Where should you assign process answering TRusing into an which e context of managing a software Applied to TRs how youthecan answerofthese questionsa by old method called Line of Balance in a new way. the LOB technique offers two the organization or project manager wants The LOB method consists of the followprogress, to have vantages over the traditional Open (LOB) elements [4]: Line of Balance wasvisibility devizedtobyevaluate the members of ai.e., grouping headed by George E Fouch during the 1940s how many TRs have been reported, how • A number eports (TRs) Chart [2]: of control points and their [1] to monitor Tire have and Rubber Company It wastoalso successfully appliedinto the ofthe theGoodyear reported TRs been anaows project managers to see,production in many at lead .times closing as illustrated production planning and scheduling of the huge Navy mobilization program of World War II during the Figure 3 (see page 24), atandwhich middle of a project, whether they lyzed, how many of the analyzed were Korean hostilities. Today, LOB application has been further expanded, making it suitable for a whole spectrum rejected and so on. Elemental states could progress is to be monitored. meet the schedule if they continue be grouped into super sets for reporting Objective Chart or target plan dis• An ng as they have been. of activities ranging from research and development through job-shop and process flow operations. i.e.,a while theproject, project the manager playing thetwo cumulative closing schedposes process bottlenecks, In theallowcontext purposes, of managing software LOB technique offers main advantages over the might be interested in how many have ule as planned by the project manager to focus on he project manager traditional Open Trouble Reports (TRs) Chart [2]: to meet a set deadline (Figure 4). been analyzed, assigned, implemented, or points responsible for slippage. • it allows projectintegrated managersthe to see, in thegroup middle of a project,• whether theyStatus can meet the(see schedule they The TRs Chart Figureif 5, steering overseeing they have page 25), which shows the actual numthe as project mightbeen, only been interested in pen TRs Chart continue working • it exposes process allowing the project manager tober focus responsible fora slippage. TRsthose that points have passed through of on howbottlenecks, many TRs were reported, how many er some of the questions raised at given control point versus the number nning of this article, project man- were closed, and how many were still that should have been passed (the pending. ally resort to the Open TRs Chart The Open TRs Chart LOB) according to the plan. Most defect tracking systems will Figure 1 or a variation of it. contained in theto the information The project this raised modelator variation To answer some ofimplement the questions thesome beginning of this article, managers usually resort Open TRs Chart shows the cumumber of TRs written Openover TRstime, Chart shown Figure 1 or aReports variation Figure in 1: Open Trouble Chartof it. breakdown into open and closed Trouble Reports Over Time the project progresses, the closed 350 ld converge toward the total line open line towards zero. A closed 300 is not converging fast enough he total or an open line that does 250 oach zero signals to the project the need to devote additional 200 Total s to fix problems. Open 150 Closed tions of the chart include showre detailed breakdown of the TR 100 nd ratios between total and open ]. 50 ite all its usefulness, the Open TR cks predictive ability and fails to 0 ntage of past and present perforata and TRs closure targets; i.e., ny TRs should be in a given state 15 26 /0 02 7/2 /0 00 09 8/2 4 /0 00 16 8/2 4 /0 00 23 8/2 4 /0 00 30 8/2 4 /0 00 06 8/2 4 /0 00 13 9/2 4 /0 00 20 9/2 4 /0 00 27 9/2 4 /0 00 04 9/2 4 /1 00 11 0/2 4 /1 00 18 0/2 4 /1 00 25 0/2 4 /1 00 01 0/2 4 /1 00 08 1/2 4 /1 00 15 1/2 4 /1 00 22 1/2 4 /1 00 29 1/2 4 /1 00 06 1/2 4 /1 00 2/ 4 20 04 Trouble Reports Using Line of Balance to Track the Progress of Fixing Trouble Reports Figure 1 Open TRs Chart Figure 1: Open Trouble Reports Chart www.stsc.hill.af.mil 23 The Open TRs Chart shows the cumulative number of TRs written over time, and its breakdown into open and closed TRs. As the project progresses, the closed line should converge toward the total line and the open line towards zero. A closed line that is not converging fast enough toward the total or an open line that does not approach zero signals to the project manager the need to devote additional resources to fix problems. Variations of the chart include showing a more detailed breakdown of the TR status, and ratios between total and open TRs [2, 3]. 3Q08 16 Using LOB to Track the Progress of Fixing TRs Despite all its usefulness, the Open TR Chart lacks predictive ability and fails to take advantage of past and present performance data and TRs closure targets; that is, how many TRs should be in a given state by a given time to meet the project deadlines. In other words, although the chart will give the project manager a gut feeling about the situation, it would not answer the questions of where we are �������������������������������������������� ���������������������������������������� in relation to where we are supposed to be, or how much better we should be doing to get where we want to get by the time we want. The TR Life Cycle Typically, a TR will go through a number of stages or states since Software Engineering Technology it is reported until it is closed (see Figure 2). Each of these states corresponds to a milestone in the process of answering a TR into Open which the organization or project manager wants to have visibility to Reported evaluate progress, that is, how many TRs have been reported, how Pending many of the reported TRs have been analyzed, how many of the Analyzed analyzed were rejected and so on. Elemental states could be grouped into super sets for reporting purposes, that is, while the project Assigned manager might be interested in how many have been analyzed, assigned, implemented or integrated, the steering group overseeing Implemented the project might only been interested in how many TRs were reported, how many were closed, and how many were still pending. Integrated Most defect tracking systems will implement this model, or some variation of it, time stamping each TR as they transition between states. This last feature would allow the organization to produce the Closed Verified Rejected Duplicated lead-time information required by the LOB method. In addition to the state and timing information, the TR includes Figure 2: Typical Life Cycle Figure 2 Typical TR life cycle 2: Typical TR LifeTR Cycle other data such as the severity of the problem. This information could Figure be used to filter the TR data and apply the LOB method to a subset of Reported all the TRs reported and in the prioritization of which TRs to fix first. Objective time infor many TRs given time Control P In LOB te milestone o wants to m ing TRs, th TR life cyc this is not n ject manag track TRs state woul point. The calculated LeadTime n= LeadTimeq= Analyzed The LOB Method Applied to TRs Assuming spends in Table 1, yield the re Lead Times The LOB method consists of the following elements [4]: Assigned • a number of control points and their lead times to closing as illustrated in Figure 3, at which progress is 30 Days The Obje to be monitored, 25 Implemented The Objec Days • an Objective Chart or target plan displaying the cumulative closing schedule as planned 19 by the project verified TRs Days manager to meet a set deadline (Figure 4), achievemen Integrated 11 • the TRs Status Chart (see Figure 5), which shows the actual number of TRs that Days have passed through a chart migh 5 achievemen Days according to the plan. given control point versus the number that should have been passed (the LOB) Verified The O The information contained in the Objective Chart, together with the lead-time information is used to that the pr calculate how many TRs should be in a given state at a given time. Figure 3: The Process of Solving a TR and Its close 50 T Corresponding Lead Times by the end Figure 3 The process of solving a TR and its corresponding lead times Control Points beginning In LOB terminology, a control point is a milestone or event that the project manager wants to monitor. In the Control Point Time in State Lead Time also show context of tracking TRs, the control points and states in the TR life cycle would coincide, 5but Reportedmost likely 5 + 25this = 30is progress is 6 + 19and = 25 not necessary. For example, the project manager might not find it useful toAnalyzed track TRs in6 the rejected state delivering Assigned 8 8 + 11 = 19 so this state would not be considered a control point. The lead time for a control point is the 80 pro Implemented 6 calculated using 6 + 5 =the 11 Integrated 5 5+0=5 following formula: 0 Verified 0 TR Statu LeadTimen = 0 The TR St Table 1: Lead-Time Calculations LeadTimeq=n-1,n-2,...n-1 = TimeInStateq + LeadTimeq+1 Assuming that the median2 times a TR spends in a given state are those shown in Table 1, the lead-time To Be Verified calculations will yield the results illustrated in Figure 3. 160 3Q08 uble Reports 140 120 100 80 60 TR life cycle would most likely coincide, but point is the number of TRs behind o 1, the wants1 to monitor. In the context of track-Table LOB. The lead-time differencecalcu betw this is not necessary . For example, the proahead of schedule. thethe results F Implemented Assigned ing TRs, the control points and states in theyieldand top illustrated of the barin fo ject manager might not find it useful to Notice that the shape of the LOB wil TR life cycle would most likely coincide, but point is the number of T 30 track TRs in the rejected state and1 so this Days change daily even if there are no new TR Objective Chart Integrated this is not necessary . For example, the pro-Theahead of schedule. 25 state would Implemented not be considered a control reported, since its calculation depends on Closed The Objective Chart shows cum ject manager might not Days find it useful to Notice that the shape o Verified Rejected Duplicated 19 Thethe lead time forofaFixing controlTRs point is the plannedverified curveTRs of on thethe Objective Char Using LOBpoint. to Track Progress scale vertical track TRs in the rejected state and so this change daily even if there a Days calculated using the following formula: and the status date. Integrated state would not11 be considered a controlachievement reported,along sincethe its horizont calculati Closed The TRchart Status Chartalso shows that ather Days might include Figure 2 Typical TR life cycle Figure 2: Typical TR LifeVerified Cycle Rejected Duplicated point. The lead time for a control point is the planned curve of thedisO LeadTime n=0 5 are almost 180 TRs reported so far, 30 achievements so far. Days calculated usingq+LeadTime the following formula: and the status date. q+1 LeadTimeq=n-1,n-2,..,n-1 =TimeInState Verified more than what were planned to Fig fix Chart in TheThe Objective Reported TR Status Chart sh Figure 2 Typical TR life cycle Figure 2: Typical TR Life Cycle according to thethe Objective Chart. This sig that project manager has co LeadTime n=0 are almost 180 TRs repo 2 3: The Processtimes of Solving a TRnals and Its Assuming Figure thatLeadTime the median a TR the q+1 need to50update plan. of It also close TRs bythe the Sep q q=n-1,n-2,..,n-1=TimeInState +LeadTime more than whatendwere Analyzed Reported Lead Times spends Figure in aCorresponding given state are those shown in tells us that TR implementation is on track by the end of November, and 3 The process of solving a TR and its corresponding lead times according to the Objective Table 1, the lead-time calculations will 2 as the actual column and thefollowing LOB lineyea fo the Assuming that the median times a TRbeginning nals theofneed to update th Control Point Time in State Lead Tim e yield the results illustrated in Figure 3. that control point coincide, but that we ar Analyzed that as of mid also shows Assigned spends in a given state are 5those shown in tells us that TR implementa Reported 5 + 25falling = 30 behind in their integration and ver progress is slightly behind with 30 Table 1, the lead-time calculations will as the actual column and th Analyzed 6 + 19 = 25 Days The Objective Chart 68 ification. This suggests that 75 adding mor delivering around TR Assigned = 19 3. yield the results illustrated 8in+ 11 Figure that control point fixed coincide, Assigned 25 Implemented The Objective Chart shows cumulative, to be people to implementation activities wil the 80 promised. Implemented 6 6 + 5 = 11 Days falling behind in their integ 30 TRs on 19 verified and dates of the vertical scale Integrated 5 5 + 0 not = 5 help recoup the delay, but that addi Days Days The Objective Chart 0 ification. This suggests tha Verified 0 tional resources could Chart be used in integra TR people Status 25achievement along the horizontal scale. The Integrated Implemented 11 The Objective Chart shows cumulative, to be to implementation Days Days chart might also include a display of the tion and verification activities. TR Status Chart the provides The 19 Table 1: Lead-Time Calculations verified TRs on the vertical scale and dates of not help recoup delay, 5 Table Days achievements so far. 1: Lead-Time CalculationsThe LOB for each control point is cal Days along the horizontal scale. The achievement tional resources could be u Integrated Verified 11 The Objective Chart in Figure 4 shows culated as follows: Days chart might also include a display of Verified the tion and verification activit To Be that the project manager has committed to 5 achievements so far. The LOB for each cont Figure Process of Solving a TR and Figure3:3:The The Process ofDays Solving a Its TR close 50 TRs by the160 end of September, 80 a1 + b1t t1<_ t <t2 Verified Chart in Figure 4 shows The Objective culated as follows: Corresponding Lead Times and Its Corresponding Lead Times by the end of November, and 150 by the a2 + b2t t2<_ t <t3 Figure 3 The process of solving a TR and its corresponding lead times that 140 the project manager has committed to following year. The chart . Figure 3: The Process of Solving a beginning TR and Itsof the LOBq=1,2,..,n80 close 50 TRs by the end of September, a1 + b1t Control Point Time in State Lead Time that as of mid-December also shows . Corresponding Lead Times 120 by the end of November, and 150 by the a 2 + b2t Figure 35The process of solving5a + TR25 and=its corresponding lead times Reported 30 The Objective Chart progress is slightly behind with the project . beginning of the following year. The chart Analyzed . 6 6 + 19 = 25 LOB delivering fixed TRs scale instead ofdates of achievement + bmt tm<_ t <tm+1 aalong 100 The Objective ChartPoint shows8Time cumulative, toLead be verified TRs on75 the vertical mq=1,2,..,n Time around Assigned 8Control + 11in= State 19 that as and of mid-December also shows . promised. Implemented 6 = 11 5 + 5might + 2580 = 30 the horizontal6Reported scale. The chart also5the include a display of80theisachievements sowith far. the project progress slightly behind . Integrated 5Analyzed 5+0=5 6 + 19 = 25 The Objective Chart in068Figure 4 shows that the project manager has committed to close 50 TRs by the end delivering around 75 fixed TRs instead of a m + bmt Verified 0Assigned 8TR + 11Status = 19 y - yi Chart 60 bi = alsoi+1shows thebeginning 80 promised. of September,Implemented 80 by the end6 of November, 150 by the ofquantitative the following year. The chart 6 +and 5 = 11 TR Status Chart provides The ti+1 - ti Table Calculationsprogress Integrated 5 5+0=5 that1:asLead-Time of mid-December is slightly behind, with the40 project delivering around 75 fixed TRs instead of 0 Verified 0 yi+1- yi TR Status Chart i = the 80 promised. yi and yi+1 are the number bof TRs to be TR Status Chart provides quantitative The To Be Verified ti+1 - ti 20 Table 1: Lead-Time Calculations fixed by time ti and t1+1 respectively, as Lead Times Integrated Lead Times { { Trouble Reports Lead Times 17 160 140 Trouble Reports planned by the project manager and yi and yi+1 are the number captured in the objective chart. 1-Aug-04 20-Sep-04 9-Nov-04 fixed by29-Dec-04 time ti and17-Feb-0 t1+1 res planned by the project ma Figure 4: The Plan Proposed by the PM to Clear the TRaBacklog i = y i - b it i captured in the objective t =TimeNow+LeadTime q 0 To Be Verified 12-Jun-04 160 120 140 100 120 24 Figure 4 The plan proposed by the PM to clear the TR backlog CROSSTALK The Journal of Defense Software Engineering a i = y i - b it i Trouble Reports The idea behind the procedure is simple t =TimeNow+Lea Actual If it takes an average of 10 days for a TR 100 to goPlanned from a given state to the completion 60 The idea behind the proce state,Actual today’s status for that state should 80 If it takes an average of 10 40 be equal to the number of TRs that would to go from a given state to 60 have to be completed according to th 20 state, today’s status for th plan 10 days from now. See Figure 6 for 40 be equal to the number of graphical example. 0 have to be completed ac 20 In Figure 6, the chart on the left show 12-Jun-04 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 17-Feb-05 plan 10 days from now. See the planned line from Figure 4, while th graphical example. 0 Figure 4: The Plan Proposed by the PM to Clear the TR Backlog chart on the right shows the scheduled In Figure 6, the chart on 12-Jun-04 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 17-Feb-05 Figu the planned line from Figure 4 The plan proposed by the PM to clear the TR backlog 24 CROSSTALK The Journal of Defense Software Engineering April 200 Figure 4:Figure The Plan by the PM to Clear Backlog chart on the right shows 4:Proposed The Plan Proposed by the theTR PM to Clear the TR Backlog 80 24 Planned Figure 4 The plan proposed by the PM to clear the TR backlog CROSSTALK The Journal of Defense Software Engineering TR Status Chart The TR Status Chart provides quantitative information with regards to progress, and whether or not there is a bottleneck on the process. The chart portrays the actual number of TRs that have passed through each control point against the number that should have been passed according to the plan. These last quantities are called the LOB. The difference between the LOB and the top of the bar for each control point is the number of TRs behind or ahead of schedule. 3Q08 Control Points control point against the number that In LOB terminology, a control point is a should have been passed according to the Assigned milestone or event that the project manager plan. These last quantities are called the wants to monitor. In the context of track- LOB. The difference between the LOB Implemented ing TRs, the control points and states in the and the top of the bar for each control TR lifeUsing cycle LOB wouldtomost coincide, but point Tracklikely the Progress of Fixing TRsis the number of TRs behind or Integrated this is not necessary1. Using For example, the proahead of schedule. Line of Balance to Track the Progress of Fixing Trouble Reports ject manager might not find it useful to Notice that the shape of the LOB will track TRs in the rejected state and so this change daily even if there are no new TRs igure 5. We obtained Figure 5’s Progress Points as 12/12/2004 state would not atbeStatus considered a of control reported, since its calculation depends on Closed 200 ine by finding the interception Verified Rejected Duplicated point. The lead time for a control point is the planned curve of the Objective Chart e TimeNow line and the curve in 180 calculated using the following formula: and the status date. ve chart (the a1 +b2t,...,am + bmt 160 The TR Status Chart shows that there Figure 2 Typical TR life cycle Figure 2: Typical TR Life Cycle ove), which yields the value for 140LeadTime n=0 are almost 180 TRs reported so far, 30 d Control Point, that is the 120LeadTimeq=n-1,n-2,..,n-1=TimeInStateq+LeadTimeq+1 more than what were planned to fix Reported Actual TRs that should be on that 100 according toScheduled the Objective Chart. This sig(LOB) Dec. 12, 2004. The interception 80Assuming that the median2 times a TR nals the need to update the plan. It also e curve Analyzed and the line at TimeNow 60spends in a given state are those shown in tells us that TR implementation is on track Implemented yields the LOB value for 40Table 1, the lead-time calculations will as the actual column and the LOB line for mented Control Point. that control point coincide, but that we are 20yield the results illustrated in Figure 3. Assigned falling behind in their integration and ver0 30 ry Days The Objective Chart ification. This suggests that adding more ng a credible early warning 25 Implemented The Objective Chart shows cumulative, to be people to implementation activities will Days enecks in the process of19 fixing verified TRs on the vertical scale and dates of not help recoup the delay, but that addiDaysmanOB method helps project along the horizontal scale. The tional resources could be used in integraachievement Integrated 11 corrective actionsDays such as allochart might also include a display of the tion and verification activities. Figure 5: Trouble Reports Status Chart 5 prioritizing the e resources or achievements so far.5: Trouble Reports Status Chart The LOB for each control point is calFigure Days there is still time to do it. Verified Chart in Figure 4 shows culated as follows: The Objective TimeNow + LeadTime Implemented s of the data required toFigure imple- 5 TRs status chart that the project has committed the LOB will manager change daily even if to LOB 3:technique, of that Figure The Processmost of Notice Solving aitTRthe andshape Its of close 50 TRs the end ofdepends September, a1 + b1t t1<_ t <t2 there no new TRs reported, since itsby calculation on 80 readily available fromareyour Corresponding Lead Times Be Verified at Status Points as aof2 + 12/12/2004 by theToend of November, and 150 by Progress the b2t t2<_ t <t3 3 The process of solving a TR and its corresponding lead times thebeplanned the status king system or could derivedcurve of the 160 160 Objective beginningChart of theand following year.date. The chart . LOBq=1,2,..,n h aControl few calculations Status shows that there 180 TRs140 Point Time implementin The StateTRLead TimChart e thatareasalmost of mid-December also shows . 140 or any other spreadsheet.� Reported 5 reported so5far, + 2530 = 30 more than what iswere planned to with fix according progress slightly behind the project . Analyzed 6 6 + 19 = 25 120 120 delivering around 75 fixed TRs instead of tm<_ t <tm+1 a to the Objective Chart. This signals the need to update the plan. m + bmt Assigned 8 8 + 11 = 19 ledgements the 80 promised. Implemented 6 It also tells us 6 + that 5 = 11TR100 100 implementation is on track as the actual Jeremy and GaeIntegratedO’Sullivan 5 5+0=5 column and the LOB line for that control point coincide, but80 bardi from Ericsson; Alain 0 Verified 0 80 y -y TR Status Chart bi = i+1 i Technologie om École de that we are falling behind in their integration and verification. TR Status Chart provides quantitative The ti+1 - ti 60 60 Table 1: Lead-Time Calculations - Université du Québec; and that adding This suggests more people to implementation their comnez from RMyA for activities will not help 40recoup the delay, but that additional 40 yi and yi+1 are the number of TRs to be To Be Verified earlier versions of this article; fixed by time ti and t1+1 respectively, as resources could be used 20 20 in integration and verification activities. n Corcoran from Ericsson for planned by the project manager and 160 The LOB for each control point is calculated as shown on the istics. 0 0 captured in the objective chart. right: 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 140 ces The idea behind the procedure is simple. If it takes an average a i = y i - b it i , Noel 120 N. “Line of of 10 Balance.” days for a TR to go from a given state to the completion t =TimeNow+LeadTime q Enterprise, 7 June state, 2003 today’s <www. status for that state should be equal to the number 100 TimeNow Line m>. Planned behind the procedure is simple. of TRs that would have to be completed according to the plan 10 daysThe fromidea now. See Figure 6 for a graphical (12/12/2004) 80 Juan. “Quality ConLaborde, Actual If it takes an average of 10 days for a TR example. Project Control?” Second Soft- Figure 6: The LOB for the Control Point to go from a given state to the completion 60 In Figure 4, while the chart on the right shows ngineering Process Group La- 6, the chart on the left shows the planned line from Figure state, today’s status for that state should merica Conference. Mexico, 2005 line 2. from The median preferred to Figure the arithcomplex TRs from skewing the of value ofbetween the scheduled Figure 5.is We obtained 5’s scheduled line by finding thenumber interception 40 be equal to the TRs that would si.es/SEPGLA/index_eng. html>. line and metic to preventchart rare but statistic to the right. the TimeNow themean curve(average) in the objective (the a1 + the b2t,...a + b t function above), which yields m m have to be completed according to the the William 20A. “Software value Quality for the Verified Control Point, that is the number of TRs that should be days on that state as of 12,a plan 10 from now. SeeDecember Figure 6 for ement: A Framework for the Author example.yields the LOB value for graphicalImplemented 0 2004. The interception between the curve andAbout the line at TimeNow + LeadTime and Defects.” ng Problems In Figure 6, the chart on the left shows 12-Jun-04 the 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 17-Feb-05 Implemented Control Point. SEI-92-TR-22. Pittsburgh, PA: development Eduardo Miranda is a papers in software Figure 4, while the the planned line frommethode Engineering Institute, Figure 4: The Plan Proposed1992. by the PM to Clear the TR system Backlog professional with ologies, estimation, chart on and the project right shows the scheduled managea, Eduardo. Summary Running The ment and is the author of “Running the 20 years of experience in 4 The plan proposed by the PM to clear the TR backlog Project Office. fulFigure Hi-Tech 24 CROSSTALK The Journal of Defense Software Engineering April 2006 Successful Project Office.” the development of soft-in the By providing a credible early warning about bottlenecks process ofHi-Tech fixing TRs, the LOB method helps House, 2003. Miranda has or a Master of Engineering products and more University. e Acquisition project managers take correctiveware-based actions such as allocating resources prioritizing the work when there is degree from the University of Ottawa information management ing for ProgramstillManagers. time to do it. e Systems Management. College systems. Currently, he works in the devel- and a master’s degree in project manageIn terms of the data required to implement the LOB technique, most of it should be readily available from Oct. 2001 <www.dau.mil/pubs/ opment of new estimation and planning ment from the University of Linkoping. your system orforcould be derived it with a few calculations implemented in Excel™ or any scheduling_guide.asp>. defect tracking approaches research and from developother spreadsheet. 119 Harwood Gate ment projects. Miranda is affiliated with ed Ve rif i In te gr at ed ed pl em en te d Im An al yz As si gn ed ep or te d R Lead Times Trouble Reports in State 18 ntrol points are likely to be a of the TR states. To avoid condo not create additional control ed ifi Ve r In te gr at ed en te d d ze pl em An al y si gn ed As Im Trouble Reports R ep or te d Trouble Requests { Beaconsfield, Quebec the Université du Québec à Montréal as Canada H9W 3A5 an industrial researcher, and is a member Phone: (514) 697-0594 of the International Electronics and En3Q08 E-mail: emt.miranda@computer.org gineers. He has published more than 10 www.stsc.hill.af.mil 25 40 20 0 Tr plemented Control Point. mary 19 s the value for 140 t,owledgements that is the 120 on that sldtobeJeremy O’Sullivan and100 Gaehe interception Lombardi from Ericsson; 80 Alain École de Technologie nefrom at TimeNow 60 eure Université LOB- value for du Québec; and 40 Martinez oint. from RMyA for their com20 on earlier versions of this article; John Corcoran from Ericsson0 for statistics. Trouble Requests Trouble Reports in State ed Ve rif i In te gr at ed ed pl em en te d Im An al yz As si gn ed R ep or te d oviding a credible early warning bottlenecks in the process of fixing he LOB method helps project manUsing LOB to Track the Progress of Fixing TRs ake corrective actions such as alloFigure 5: Trouble Reports Status Chart more resources or prioritizing the Using Line of Balance to Track the Progress of Fixing Trouble Reports when there is still time to do it. erms of the data required toFigure imple- 5 TRs status chart TimeNow + LeadTimeImplemented the LOB technique, most of it ined Figure 5’s Progress at Status Points as of 12/12/2004 readily available from200your hebe interception To Be Verified Progress at Status Points as of 12/12/2004 tracking system 160 160 nd the curve in or could be derived 180 with a few calculations implement+b 2t,...,am + bmt 140 160 140 Excel or any other spreadsheet.� 120 120 100 100 80 80 60 60 40 40 20 20 Actual Scheduled (LOB) ed ifi Ve r In te gr at ed en te d d ze pl em Im An al y As si gn ed ed ep or te d R Ve rif i In te gr at ed ed ifi Ve r In te gr at ed en te d d pl em ze Im An al y si gn ed As R ep or te d Trouble Requests Im pl em en te d ed An al yz As si gn ed R ep or te d 0 0 early warning 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 ocess of fixing rences s project rroff, NoelmanN. “Line of Balance.” s such as allo-7 June 2003 <www. NH Enterprise, TimeNow Line h.com>. rioritizing the Figure 5: Trouble Reports Status Chart (12/12/2004) Juan. “Quality Conssacq Laborde, e to do it. TimeNow + LeadTime = Project Control?” Second SoftImplemented uired toFigure imple- 5 TRs status chart Figure 6: The LOB for the Control Point Engineering Figure 6: The LOB for the Control Point ,e most of itProcess Group Lao America Conference. Mexico, 2005 2. The median is preferred to the arithcomplex TRs from skewing the value of le from your Verified Progress Points as 12/12/2004 ww.esi.es/SEPGLA/index_eng. html>. To Bemetic mean (average) to prevent rare but at Status the statistic toofthe right. uld be derived 160 rac, William A.Acknowledgements “Software160Quality ns implementasurement: A Framework for 140 140 to Jeremy O’Sullivan and Gaetano About the Author Lombardi from Ericsson; Alain Abran from École de Technologie eadsheet.� and Defects.” unting Problems Thanks Supérieure – Université du Québec; and Raul MU/SEI-92-TR-22. Pittsburgh, PA: 120 Martinez from RMyA for their comments on earlier versions of 120 Eduardo Miranda is a papers in software development methodtware Engineering Institute, 1992.and to John Corcoran from Ericsson for the TR statistics. this article; with ologies, estimation, and project managesystem professional 100 100 randa, Running The van andEduardo. Gae20 years of experience in ment and is the author of “Running the ccessful icsson; Hi-Tech Alain Project80Office. the development80 of soft- Successful Hi-Tech Project Office.” References ech House, 2003. Technologie ware-based products and Miranda has a Master of Engineering fense Acquisition University. 60 60 Québec; and 1. Harroff, Noel N. ‘Line of Balance.’ NNH Enterprise,degree 7 Junefrom 2003thewww. nnh.com. University of Ottawa information management heduling for Program Managers. for their com40College degree in project manage- Process Group and a master’s Currently, heControl works in the devel- Control?’ systems. fence Systems Management. 2. Pussacq Laborde, Juan. ‘Quality =40 Project Second Software Engineering of this 2001 article; ss, Oct. <www.dau.mil/pubs/ ment from the University ofhtml. Linkoping. opment of new estimation and20planning 20 Latino America Conference. Mexico, 2005 www.esi.es/SEPGLA/index_eng. m Ericsson for bks/scheduling_guide.asp>. approaches for research and develop3. Florac, William A. projects. ‘SoftwareMiranda Quality for Counting Problems and Defects.’ 0 0 119 Harwood Gate is Measurement: affiliated with A Framework ment 1-Aug-04 20-Sep-04 9-Nov-04 29-Dec-04 s CMU/SEI-92-TR-22. Pittsburgh, PA: Software Engineering Institute, 1992. Beaconsfield, Quebec the Université du Québec à Montréal as e control points are4.likely to be aEduardo. 3A5 Miranda, Running The Successful Office. H9W Artech House, 2003. an industrial researcher, and is a Hi-Tech member ProjectCanada set the TR states. To avoid conofofBalance.” Phone: (514) 697-0594 of the International Electronics and En5. Defense Acquisition University. Scheduling for Program Managers. Defence Systems Management. College Press, control do not create additional eion, 2003 <www. E-mail: emt.miranda@computer.org gineers. He has published more than 10 Oct. 2001 www.dau.mil/pubs/ gdbks/scheduling_guide.asp nts. TimeNow Line (12/12/2004) “Quality Conwww.stsc.hill.af.mil 25 ” Second Soft-Notes Figure 6: The LOB for the Control Point ess Group LaThe median control is points are likely to be a subset of the TRTRs states. Toskewing avoid confusion, . Mexico, 2005 2.1. The preferred to the arithcomplex from the value ofdo not create additional control points. dex_eng. html>. metic mean (average) to prevent rare but the statistic to the right. ftware Quality 2. The median is preferred to the arithmetic mean (average) to prevent rare but complex TRs from skewing the amework for value of the statistic to theAbout right. the Author nd Defects.” ittsburgh, PA: Eduardo Miranda is a system with 20 years ofdevelopment experience in the development of software-based products and methodsoftware papers in Miranda Eduardo is a professional information management systems. Currently, he works in the development of new estimation and planning approaches stitute, 1992. estimation, manageologies, with projects. system professional for research and development Miranda is affiliatedand withproject the Université du Québec à Montréal as an industrial Running The ment and is the author of “Running the 20 years of experience in researcher, and is a member of the International Electronics and Engineers. He has published more than 10 papers in roject Office. Project Office.” thesoftware development of methodologies, soft- Successful development estimation,Hi-Tech and project management and is the author of ‘Running the Successful Hi-Tech Project Office’������������������������������������������������������������������������������������������������� .������������������������������������������������������������������������������������������������ MirandaMiranda has a Masterhas of Engineering the University of Ottawa and a master’s degree a Masterdegree of from Engineering ware-based products and University. in project management from the University of Linkoping. information management degree from the University of Ottawa m Managers. E-mail: emt.miranda@computer.org ement. College systems. Currently, he works in the devel- and a master’s degree in project managedau.mil/pubs/ opment of new estimation and planning ment from the University of Linkoping. .asp>. approaches for research and develop119 Harwood Gate ment projects. Miranda is affiliated with Beaconsfield, Quebec the Université du Québec à Montréal as likely to be a an industrial researcher, and is a member Canada H9W 3A5 To avoid con3Q08 Phone: (514) 697-0594 of the International Electronics and Enitional control E-mail: emt.miranda@computer.org gineers. He has published more than 10 www.stsc.hill.af.mil 25
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