[{"data":1,"prerenderedAt":113},["ShallowReactive",2],{"activity-en-8.4":3,"sector-for-en-8.4":86},{"id":4,"title":5,"activityCode":6,"activityType":7,"body":8,"description":68,"dnsh":69,"extension":74,"meta":75,"naceCodes":76,"navigation":78,"path":79,"sector":80,"seo":81,"stem":82,"substantialContribution":83,"__hash__":85},"activities_en\u002Fen\u002Fsectors\u002Fict\u002Factivities\u002F8-4-computer-programming-consultancy.md","Computer Programming, Consultancy and Related Activities","8.4","enabling",{"type":9,"value":10,"toc":58},"minimark",[11,16,20,23,27,30,34,37,41,44,48,51,55],[12,13,15],"h2",{"id":14},"substantial-contribution-to-climate-change-mitigation","Substantial Contribution to Climate Change Mitigation",[17,18,19],"p",{},"As an enabling activity, software and IT consultancy services must directly enable substantial GHG reductions in client operations. Qualifying services include development of energy management software, carbon accounting platforms, smart building management systems, fleet optimisation tools, industrial process control systems for emission reduction, and climate data analytics services.",[17,21,22],{},"The enabling effect must be verified through documented case studies or third-party assessments showing measurable emission reductions achieved by clients using the developed solutions. The provider must use a recognised GHG quantification methodology and make results available to clients. The activity must not extend the lifetime of fossil-fuel-dependent systems or delay the transition to low-carbon alternatives.",[12,24,26],{"id":25},"substantial-contribution-to-climate-change-adaptation","Substantial Contribution to Climate Change Adaptation",[17,28,29],{},"Where services focus on adaptation, they must support clients in conducting climate risk assessments, developing adaptation strategies, or implementing resilience solutions based on current climate science and IPCC projections.",[12,31,33],{"id":32},"dnsh-climate-change-adaptation","DNSH: Climate Change Adaptation",[17,35,36],{},"The provider's own IT infrastructure must be assessed for climate risks per Appendix A. Business continuity plans must address service disruption from extreme weather events, power outages, and network failures.",[12,38,40],{"id":39},"dnsh-water-and-marine-resources","DNSH: Water and Marine Resources",[17,42,43],{},"Office and data infrastructure operated by the service provider must implement water efficiency measures. Where the provider operates or manages data centres for service delivery, water usage effectiveness must be tracked and optimised.",[12,45,47],{"id":46},"dnsh-circular-economy","DNSH: Circular Economy",[17,49,50],{},"The provider must implement responsible hardware management practices, including extending device lifespans, refurbishing equipment, and ensuring certified recycling of electronic waste. Software design must consider computational efficiency to minimise resource consumption.",[12,52,54],{"id":53},"dnsh-pollution-prevention-and-control","DNSH: Pollution Prevention and Control",[17,56,57],{},"Electronic waste generated by the provider must be managed through certified WEEE processors. Office operations must comply with local environmental regulations for waste segregation and hazardous material handling.",{"title":59,"searchDepth":60,"depth":60,"links":61},"",2,[62,63,64,65,66,67],{"id":14,"depth":60,"text":15},{"id":25,"depth":60,"text":26},{"id":32,"depth":60,"text":33},{"id":39,"depth":60,"text":40},{"id":46,"depth":60,"text":47},{"id":53,"depth":60,"text":54},"Software development, IT consultancy and systems management services that enable GHG emission reductions in client organisations.",[70,71,72,73],"cca","water","ce","pp","md",{},[77],"J62",true,"\u002Fen\u002Fsectors\u002Fict\u002Factivities\u002F8-4-computer-programming-consultancy","ict",{"title":5,"description":68},"en\u002Fsectors\u002Fict\u002Factivities\u002F8-4-computer-programming-consultancy",[84,70],"ccm","zeOfqOEmtUY9vti2fZA5chrLSIi8kZrDhF7b_W4FSZA",{"id":87,"title":88,"activityCount":89,"body":90,"description":103,"extension":74,"icon":104,"meta":105,"naceCodeRange":106,"navigation":78,"objectives":107,"path":108,"sectorNumber":109,"seo":110,"stem":111,"__hash__":112},"sectors_en\u002Fen\u002Fsectors\u002Fict.md","Information & Communication",4,{"type":9,"value":91,"toc":101},[92,95,98],[17,93,94],{},"The information and communication technology sector covers digital solutions that enable emissions reductions across the broader economy. While ICT's own carbon footprint is growing, its potential to drive efficiency gains in energy, transport, buildings, and industry is substantial.",[17,96,97],{},"Activities include data processing and hosting (subject to energy efficiency requirements), data-driven solutions for GHG emission reductions, software development for climate monitoring and optimisation, and telecommunications infrastructure. Data centres, for instance, must meet a Power Usage Effectiveness (PUE) threshold and use predominantly renewable energy.",[17,99,100],{},"Adaptation criteria require ICT infrastructure operators to assess physical climate risks to their facilities -- particularly cooling system resilience during extreme heat events, flood risk to server rooms and cable infrastructure, and power supply reliability under climate stress. Digital solutions that help other sectors adapt to climate change (e.g., climate modelling platforms, early warning systems) are also recognised as enabling activities.",{"title":59,"searchDepth":60,"depth":60,"links":102},[],"Data-driven solutions, software, and digital infrastructure enabling climate monitoring and decarbonisation.","lucide:monitor",{},"J58-J63",[84,70],"\u002Fen\u002Fsectors\u002Fict",8,{"title":88,"description":103},"en\u002Fsectors\u002Fict","AqkdDbnARlUb0-X-BJHxl6mzz0NjrGrkA_jQhHKKnfo",1775591372893]