Presentation · EN — 13-slide Siemens Energy Grid Technologies one-pager deck (version 1.0, February 2026, classification Unrestricted) presenting the Noedra Atlas Energy Advisory portfolio under the tagline 'Transform Knowledge into Direction.' The deck structures the advisory offering as a 6-step process across three service clusters: Energy transformation advisory (Operation & Transformation; Investment Planning), Detailed grid planning and simulation (Feasibility Check; Preliminary design advisory; Detailed design support), and Regulatory & normative compliance (Compliance validation). Each service one-pager carries the shared slogan 'Plan smarter. Decide with confidence. Stay ahead of regulatory demands', a unique selling proposition, features at a glance, deliverables ('Technical information'), and five shared main benefits (OEM expertise, vendor-agnostic advisory, global expertise in over 90 countries, innovation and R&D, proven track record). Compliance-cluster one-pagers cover cybersecurity compliance / gap analysis / risk assessment (NERC CIP, CIP-010, IEC 62443, NIS2, IEC 61850/GOOSE), with IEC 61850 conformance testing and grid code compliance pages still in template form. The deck is a service-scope presentation: it contains no equipment ratings, no pricing, and no customer or project names.
The deck opens with the Noedra Atlas '6 step process' — six advisory services arranged as a sequence and grouped into three clusters, from strategy through design to compliance (slide 1). Every subsequent one-pager is footed 'Grid Technologies | Noedra Atlas - Energy Advisory' plus a cluster label, and carries the Na suite mark with the tagline 'Transform Knowledge into Direction.' (The footer labels are not fully aligned with the slide-1 grouping in this draft: the Feasibility check page is footed 'Energy transformation advisory', and the two design pages use the short form 'Grid planning & simulation'.)
| Cluster | Steps |
|---|---|
| Energy transformation advisory | 1. Operation & Transformation; 2. Investment Planning |
| Detailed grid planning and simulation | 3. Feasibility Check; 4. Preliminary design advisory; 5. Detailed design support |
| Regulatory & normative compliance | 6. Compliance validation |
Assess current grid and asset performance, benchmark against best practices, and design transformation roadmaps to enable digitalization, decarbonization, and process optimization.
Features at a glance: Operational Performance Analysis (processes, assets, organizations, technologies); (international) Benchmarking of Operations (utility benchmarking — TSOs, DSOs and Gencos); Technology and Digitalization Roadmaps (grid operations, market participation/VPPs, customer operations, utility of the future); Process Analysis and Best Practice Modelling for Grid Operations (data mining, optimal process design, measurement); IT/OT Integration Concepts (EMS, DRs, control center, operational IT); Transformation Program Implementation (AMI roll-out/SMOC implementation, smart grid program implementation).
Deliverables listed under 'Technical information': benchmarking studies; utility transformation concepts; process design maps and optimization frameworks (printed 'Process Desing Maps' on the slide); (large-scale) utility transformation programs; IT/OT concept for smart grid and IoE implementations.
Develop strategic investment plans through market analysis, scenario modelling, and techno-economic evaluations to ensure cost-effective and future-ready infrastructure decisions.
Features at a glance: market forecasts (energy demand, prices, emissions, EV demand); market entry and business model concepts (ownership structure, operational model/options, cash flows); business case development and validation (incl. scenario and sensitivity analysis) with risk assessment, quantification and mitigation strategy (based on supply-chain constraints, technology maturity, commercial viability, curtailment etc.); regulatory framework assessment and forecast (incentives, funding, penalties, macro-policy analysis, environmental considerations); vendor and technology due diligence, like technology scoping and sizing (e.g. BESS/storage and RE); site assessment and benchmarking for investment sustainability; stakeholder engagement plan (regulatory bodies, TSOs, OEMs etc.).
Deliverables: market reports; market entry concepts; investment planning report; grant application/recommendation; bankability report; risk mitigation plan for investment strategy; revised business case and cost-benefit analysis.
Conduct detailed technical and economic feasibility studies, including interconnection assessments, compliance reviews, and risk analysis, to validate project viability and minimize implementation risks.
Features at a glance: feasibility concepts for technology and design (interconnection, renewable asset sizing and energy mix, grid (pre-)design and identification of required upgrades); cost-benefit analysis for technology options for RE integration, transmission, distribution and prosumer integration (TCO, asset performance, loss reduction); detailed site analysis and selection concepts (curtailment modelling, load and generation center proximity, forecasted grid capacities and interconnection); grid interconnection study — analyzing the requirements and impact of connecting the proposed power system to the existing grid, including any necessary upgrades to the transmission and distribution infrastructure; early-stage power system studies to assess high-level ratings and stability under various operating conditions.
Deliverables: assessment of technological options; cost-benefit analysis; site analysis and selection; ranking of feasibility of technological options by performance and economical feasibility; grid interconnection study; early-stage power system studies.
Defining preliminary design requirements and boundary conditions, exploring alternative concepts to minimize technical and financial risks, and providing tender support through clear technical documentation for competitive bidding — including projects that require addressing complex grid architectures, mitigating multi-vendor asset risks, and ensuring operational readiness for seamless implementation.
Features at a glance: preliminary design of the assets including sizing and achievable system performance via model development in EMT tools (fast disturbances) and RMS tools (day-to-day operation); screening of the potential risk of interaction with nearby generators and power-electronic devices and possible mitigation measures; substation design requirements via insulation co-ordination studies; equipment withstand capability definition during severe fault conditions and protective measures for asset safety; identification and mitigation of harmonic interaction via proper hardware and software; support of tendering material evaluation and required materials for FEED.
Deliverables: preliminary requirements and boundary conditions for technology; different design options including risk mitigation; identification of required development for technology (OEM R&D); technical support for transmission line procurement; technical evaluation for tendering for non-Siemens-Energy entities.
Validating designs through advanced simulations and compliance checks, defining performance requirements to meet regulatory standards, specifying components, and preparing accurate cost estimates — ensuring execution readiness and reducing implementation risk. Value drivers named on this page: Compliance (with national and global regulations) and Operational Excellence (advisory / qualified expertise).
Features at a glance: detailed interaction study with generators and different renewable assets or power-electronic devices to ensure safe and stable operation of the overall system; preliminary grid code compliance demonstration; overall philosophy of system energization with the asset to be connected to the grid; preliminary grounding and earthing system design; specification formulation for requirements applicable to assets, components and auxiliary systems; cost estimation of all assets in concern for the FEED.
Deliverables: verified design with detailed engineering and project execution; formulation of performance requirements for equipment; component specification formulation; mitigation measures implementation for risk avoidance; grid code compliance report for preliminary indication of viability of connection of a new asset; creation of the base for model development for all studies; day-to-day operation for operator functionality development.
Ensure secure, compliant grid operations through global standards mapping, vulnerability detection, automated asset discovery, real-time change alerts, risk analytics, and evidence collection for regulatory audits. Value drivers named on this page: Compliance (with national and global regulations), Operational Excellence (advisory / qualified expertise), Availability (resilience of system), and Cybersecurity (digital & physical protection).
Features at a glance: centralized automatic discovery and profiling of all connected devices, SCADA components, HVDC infrastructure, and third-party OT systems; real-time change monitoring that tracks every configuration, firmware, or parameter change across distributed grid assets; continuous threat and vulnerability detection identifying CVEs, misconfigurations, anomalous network activity, and deviations from expected baselines; regulatory mapping supporting frameworks including NERC CIP, CIP-010, IEC 62443, and custom utility compliance requirements; a risk analytics dashboard with prioritized risk scoring and dependency insights across substations, converter stations, and control systems.
| Technical information | Detail |
|---|---|
| Customize reporting (printed 'Customize reporting including' on the slide) | Pre-tagged grid asset classes; utility-tuned baselines |
| Extended grid focus | IEC 61850/GOOSE |
| Risk filters | By asset criticality / compliance section |
| Prebuilt compliance packs | NERC CIP / IEC 62443 / NIS2 |
| Integration | Packaged Splunk integration and on-prem secure remote access |
Two further compliance-cluster one-pagers are present in the deck but still in draft template form, with placeholder feature and technical-information fields. The grid code compliance page carries one authored description: comprehensive grid code compliance studies, including verification of performance requirements, dynamic and steady-state simulations, and interoperability checks. The IEC 61850 conformance testing page has a title only; no service scope, features, or deliverables are claimed for it in this deck.
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