The influence of Technical Authority on the Project timing can often cause tension with the Project Manager. This somewhat traditional battle is usually because the Technical Authority looks for answers that are the cleanest, elegant and most technically correct, whereas the Project Manager is usually looking for solutions that will give him the best position in a negotiation with the customer (usually time, cost or scope reduction) and the business.

If there was nothing technically challenging to a programme, there would be no risk, no need for a technical authority and the project manager would only need to progress chase the various packages of work, their cross-feeds and dependencies, externally supplied equipment, subcontracts or services. But if you’ve ever done an objective 3-point estimate on a software programme, you will recognise that the ‘ahead of time, on content, below cost’ area is very close to the ‘on-time, at cost’ marker …and all too frequently that tail programme (post the nominal ‘should-cost’ point) could run to two or three times nominal duration (or of you are in a Nuclear programme, probably 6 to 10 times!).

As a Technical Authority you want the Project Manager to help ‘manage’ the customer’s expectations, stop the customer making changes and generally damp his volatility. Additionally you want him to actively manage all your supply chain feeds, so that any dependent material or service arrives on time, is appropriately validated and commissioned, fully functional and well supported. You also want him to manage the department politics, reporting and any other administrative distractions, like presenting the product architecture a 100 times! Contingency for you is tolerance for dealing with things you might have overlooked, or due to the summing errors of a myriad of low-fidelity component costs.

As a Project Manager you want the Technical Authority to clearly identify the risks in the programme, how his product (solution) architecture mitigates, or accommodates change (brought about by those risks… and any reasonable change that the customer might want), and that all the quality attributes (cost, performance, safety, etc) have been thoroughly reviewed, by an appropriately skilled peer group, to give you that warm confident feeling. You want to see that all the disciplines (electronics, software, firmware, testers, etc) are aligned in their technical understanding, are clear on the product partitioning (and implicitly the boundary of their work and explicitly its interfaces) and in agreement on the ability to deliver their part against the programme dates. Contingency for you is your margin (against the Technical Authority’s failure) to ensure success at appraisal.

So why the tension between these senior positions? Surely their objectives are the same? Well… yes, but no… I’d also refer you back to an earlier instalment on personality types in ‘Managing Engineers’.

In being assessed against his objectives the Project Manager will likely be judged on Quality, Cost and Delivery; Cost and Delivery he controls by virtue of programme duration and resources (which he owns) irrespective of the technical impact; and quality… well that’s up to the Technical Authority to deliver… and it’s pretty subjective anyway (in the way a Project manager reports it!). Project Managers tend to be like teenagers, they know the price of everything, but the value of nothing. In short they are driven by praise from their seniors and its promotional connotations.

The Technical Authority will be judged on how well the solution meets the customer’s current expectations (not necessarily the specification!) including all those changes, how robust it is and how pleasant the final system is to use. (Note that none of this assessment will care about how technically pure the architecture was, or how clever some particular feature of the design or implementation is executed, that the solution is ideally placed for future extension, or that its creation was severely hampered by being denied sufficient capacity and capability of resource at the appropriate times as defined in the plan). In short, he will be judged in the same way that most consumers judge books or wines, by their covers or labels… and the price, whilst affordable.

The key to ensuring cohesion, is to use the Change Control process equably for both Technical and Programme changes, peer reviewing the impact, and making PROJECT decisions (both Technical and Programme) for ALL change… as there is no such thing as a No-Cost change! This ensures that programme changes are NOT entirely at the disposal of the Project Manager, and Technical changes are NOT entirely at the disposal of the Technical Authority.

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In an earlier instalment we talked about Managing Engineers, with some recommendations of understanding the personality types and a brief introduction to the idea of Skills Frameworks. In this entry I’d like to revisit skills frameworks to look at some of the practical benefits they can bring in organising a project team.

Firstly, it should come as no surprise that the skills framework can be used as an objective assessment tool, to gather the capabilities of your engineers in terms of the roles they have previously fulfilled, to what competence level and how recently.

If we repeat this over a number of project teams, as a Resource Manager for instance, then we have the basic material from which to derive a team of individuals who have the appropriate combinations of skills for individual projects… rather than just go for the people who have recently become available!

As roles are usually made up of a set of skills, each performed at a certain competence level (accepting that these may be different inside different companies, or for different regulatory or market needs), it is a simple task to do gap analysis between different roles and establish the obvious ‘growth’ route to the next role from each particular role. Typically this is a move to a role where either a new skill has to be added (possibly at a low competence level) or the growth of a skill is required.

As competence levels usually identify stages from the novice, through minimal supervision, to a supervisory role, then supervision of increasing numbers, on projects of increasing degree of difficulty, to expert… these increments are easy to judge (use the skills framework for regular periodic re-assessment). Some skills degrade with lack of use, so you may wish to ensure that sufficient continuous professional development is evident to maintain a skill (at the required competence level) that is not regularly practiced.

Beware though, although competence levels are typically identified numerically, these are labels not values. Do not attempt to do some mathematical or numerically algorithmic assessment of skills and competence levels as roles may have different spans; A software architect at a level that needs supervision on a complex project, may not be equivalent to a software test engineer who is a team leader on a simple project. If your job descriptions, like many, include several roles, the numerical score will not deliver you “the most valuable person”, or “the most loaded occupation”.

What is valuable, however, is the recognition when a skill is unique, or where you have very few individuals, as this relates to the fragility of the organisation, as well as giving indications about the ability to deliver concurrent projects. Weaknesses of these sorts should be the target of skills action plans, to generate, mentor or acquire the requisite additional strength. The reverse is also true, where skills are plentiful, skill plans should look to diversify those roles into different growth paths, or by increasing key individuals’ competence levels.

So at the absolute levels you can appropriately partition your staff for roles they are suited, understanding their growth challenges and administering appropriate support. Over a period of time, however, you can also understand the rate of growth by ‘trending’ the changes in assessment patterns (again not numerically, except possibly with competence levels within a skill, as part of a role of an individual’s job!).

Both absolute and trend information should help support individual training plans, ambition and career paths. They can be used to set and assess targets, used to inform on performance assessment or suitability for promotion or awards, but again a note of caution that competence levels are labels and not those labels are not equivalent across skills; not all skills require equivalent intellectual or effort levels and roles depend on the product, process and market expectations; jobs are often a tailored mix of roles, especially when staff are in short supply. So a skill framework should not be used as a blueprint to ‘cookie cutter’ a set of team members for a project, or be used blithely across a population for comparison.

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As we saw in the previous instalment, few businesses exist purely to make a single product for a single customer, but sell variations of the same product to many customers. Few products can be assembled solely from pre-configurable parts (known as domain assets), but often include specific parts unique to that customer (application assets). The business imperative is that application costs be minimised and domain utilisation maximised.

But how do you organise many project teams to collaborate to achieve this, when individual programmes have different customer deadline, developments will be out of phase and every project has their own budget?

Let’s be blunt… it’s a significant culture change… and one that won’t be universally liked, but it can bring real business benefit, but it won’t for probably at least the first 2 projects. You are trading initial investment against incremental investment per project.

Marketing: Get them to declare the totality of products and its variations that they see, now, and as all future opportunities. They need to provide this, after negotiation, as a contract to Engineering; Engineering commit to deliver the engineering costs for these products far cheaper than they have previously on a per-product basis, over a set of say 3 or more products. Engineering should refuse to provide (at a Product Line cost) anything that is not declared in here.

Engineering: Analyse the product variations declared by marketing and produce a ‘feature model’ that defines all domain assets (sufficiently common that they can be provided using a designed-for system of pre-configurable variation) and commit to it in the contract with marketing.

Project manager’s and Budget holders: Get them to declare how much of their project is claimed as re-use, in traditional approaches… and deposit all of that portion of their budget in the ‘domain’ pool – from each and every project.

Domain Team: This is, by far, the largest part of the Product Line resource – if it isn’t you are going to fail. They work on all the common (domain) assets on behalf of all projects. They do this by designing for all the ‘designed-for’ market of products that marketing have defined (and nothing else) and testing for all required combinations of configuration. They provide a configuration control system that gives access to the components for every (application) project and a system that details how each component should be configured for their required purpose, along with the test assets for that configured item.

Application Team: These should consist of a minimal amount of personnel, possibly as few as 1 or 2, to work on the specific customisation required by their project customer that cannot be produced from configuring domain assets. They also are responsible for configuring domain assets to suit their particular project, integrating components into their build and testing the ensemble as a project application.

Project Technical Authority: They only have ‘authority’ over application components (i.e. components that are unique to their project). They have responsibility for ensuring their project is represented in the definition of domain components. This is also true for ‘change’ and their change control board scope.

Things to think about are: the configuration management of domain assets; the change control mechanism (how changes are assessed for impact and changes authorised and agreed); component compatibility; understanding the impact of errors when detected in un-configured parts of components and within specific configured parts of components; tracking components and their configurations into product… and in which the error will be manifest; the configuration process.

I can recommend some good practical experience-based reading Software Product Lines in Action.

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Let us help you maximise the business potential of your product and its software

Email me on stuart.jobbins@sofintsys.com

Visit our website, or follow us on your preferred Social Media for our latest views.     ___________________________________________________________________________