The world’s major datacentres have been typically centralised at several key points across the globe like Virginia in US, London in the UK and in others such as Japan, Hong Kong China, and Singapore. Together, these datacentre locations account for a substantial share of global footprint.
By Jonathan Duncan, vice-president: anglophone Africa, secure power solutions at Schneider Electric
Compared to its continental counterparts, Africa is lagging with a total datacentre size of approximately 140 000 m2 which is comparable Switzerland. The continent, as it stands, is clearly underserviced. For example, live IT power demand in markets like Dublin and London total 795.8MW but in markets such as Johannesburg and Nairobi live IT power accounts for 54.9MW and 19.04MW, respectively.
But there is some good news, with growing digitisation and the rollout of 4G and 5G infrastructures (across the continent) this means datacentres’ volumes are set to grow significantly in the next five years. We have the possibility to “leapfrog” in technology and embrace the latest best practices and trends established today and thus see a fleet of modern facilities with higher efficiencies.
Africa with its population of 1.3 billion is driving a rapid and accelerating deployment need, particularly with a young technology savvy and dynamic populace; the sky could be the limit.
Location, location, Location
To accelerate Africa’s digitalisation, there are number of significant hurdles to be crossed. For one, cloud-based service providers require closer proximity to populated centres to enable them to deliver more sophisticated services in a timely and competitive manner while also reducing data shipment costs.
Currently, nearly half of Africa’s colocation facilities are based either in South Africa or Nigeria with Kenya and Morocco following suit. Ironically, many African websites are currently hosted in European datacentre facilities.
Datacentres must be as close as possible to the user to minimise latency, thus ensuring fast and reliable access to the information or services. Closer proximity typically translates into more capacity and speed, which drives down costs and ultimately increases accessibility.
As it stands, the African datacentre market can be segmented into three main tiers:
* Tier-1 – Cairo in Egypt, Johannesburg and Cape Town in South Africa, Lagos in Nigeria, Nairobi in Kenya. These locations tend to be leading Africa’s datacentre markets and are supported by investment from multinationals, developers, and operators.
* Tier-2 are those cities strategically positioned in the most populous countries which include Giza and Alexandria in Egypt, Addis Ababa in Ethiopia, Luanda in Angola, Accra in Ghana, Maputo in Mozambique, and Dar es Salaam in Tanzania.
* Tier three markets are those sparsely populated countries with poor infrastructure connectivity and business opportunities.
The African Development Bank estimates a total infrastructure investment of approximately $130 billion to $170 billion a year is required to meet the continent’s rapidly growing data centre needs. The bottom line is Africa needs more funding from private investment to bridge the current between $68 billion and $108 billion gap.
Green energy
Datacentres are power hungry and continuously consume a vast amount of power; this is especially true in some African countries where many are faced with extreme climatic conditions which adds an additional level of complexity for the cooling systems employed and often there is a subsequent increased energy usage.
Furthermore, African countries often deal with unreliable grid power suppliers that must be supplemented by generator-based solutions, which typically means a higher energy cost. Secure power solutions such as uninterruptable power supply (UPS) and energy management technologies become essential for these facilities to operate effectively.
The good news is renewable energy solutions are growing in adoption and are set to help mitigate some of the above energy challenges. We see that the cost point for renewables such as solar for example, has stabilised and is now becoming more affordable. Between 2010 and 2017 the average cost of producing solar energy fell by 73%, and by 22% for onshore wind power solutions says the International Renewable Energy Agency (IRENA).