Enable IoT and M2M new services based on a common SIM card pool. Secure your device and make it capable for mobile payments using NFC technology.
One tool to manage all. Either GSM, CDMA, LTE, whatever, SIMSETTINGS manage all them. Operate all configs from our dashboard and clasify your pools.
With dynamic provisioning of SIM cards, MVNO or IoT providers might modify profiles to reduce service kick-offs and logistics costs.
Manage your different SIM card pools configurations through our dashboard.
Keep tracked all your SIM cards enabling fleets tracking and stolen devices localization.
Launch batch configurations Over-the-Air (OTA) saving logistics and travels costs for card upgrading
Integrate our platform in your own IT infrastructure using our simple API.
Automate bulk tasks saving time and costs of logistics. Launch alerts when given events happens.
Save costs choosing the best provider when your devices are on roaming.
Keep track in real-time of statistic detailed data including usage, sms and data.
SIM card management represents one of the most overlooked operational constraints limiting MVNO flexibility and IoT scalability. Traditional approaches accept vendor lock-in as unavoidable—once you deploy SIM cards from a specific manufacturer, switching providers requires massive replacement campaigns that disrupt subscribers, waste inventory, and cost €3-5 per migrated card. This dependency eliminates negotiating leverage with vendors, prevents competitive bidding for better wholesale terms, and locks you into pricing structures that become increasingly uncompetitive as technology evolves and your business scales.
Our SIM OTA management platform eliminates these constraints entirely by enabling remote reconfiguration of SIM parameters without physical card replacement. Using standardized Over-the-Air protocols, you update connection settings, switch MNO providers, modify security parameters, and deploy new applets directly to cards already distributed in the field. This capability transforms SIM cards from fixed infrastructure into flexible resources you adapt continuously based on business requirements, network optimization opportunities, and changing market conditions. Your operational costs drop by 65% while gaining strategic flexibility that fundamentally changes your position in wholesale negotiations.
Vendor lock-in creates hidden costs that compound over time. When your SIM infrastructure depends on single-vendor relationships, you lose the ability to negotiate competitively. Vendors recognize your switching costs—manufacturing new cards, logistics coordination, subscriber communication campaigns, support handling during transitions—and price accordingly. MVNOs typically pay 15-25% premium on SIM procurement because vendors know replacement creates prohibitive friction that prevents competitive bidding.
OTA provisioning breaks this lock-in by making SIM cards vendor-agnostic after initial deployment. You purchase cards from any manufacturer supporting standardized OTA protocols—Gemalto, G+D, IDEMIA, or regional suppliers—then manage them through our unified platform regardless of original vendor. When negotiating new SIM purchases, you credibly demonstrate ability to integrate any vendor’s cards into your existing management infrastructure, forcing competitive pricing without vendor-specific switching costs.
The strategic value extends beyond procurement negotiations. When superior SIM technology emerges—enhanced security features, improved power efficiency for IoT applications, NFC capabilities for mobile payments—you can deploy new cards for specific use cases while maintaining existing inventory for basic connectivity. This flexibility enables technology adoption based on actual business value rather than waiting for complete infrastructure replacement windows that may occur only every 5-7 years in traditional deployments.
IoT deployments demand SIM flexibility that traditional telecom approaches cannot deliver. Connected devices serve wildly different applications—asset tracking requiring minimal data consumption, industrial sensors demanding high reliability, connected vehicles needing low latency—each with distinct network requirements and cost sensitivities. Traditional approaches require maintaining separate SIM inventories for each use case, creating procurement complexity, logistics overhead, and wasted inventory when deployment forecasts prove inaccurate.
Dynamic SIM provisioning enables deploying a single card type across all IoT applications, then configuring each SIM’s behavior based on its specific deployment context. A SIM destined for asset tracking receives configuration optimizing for battery life and minimal data consumption. The same SIM model deployed in an industrial sensor gets parameters prioritizing reliability and redundancy. Connected vehicle SIMs configure for low latency and high throughput to support real-time applications like fleet management and vehicle diagnostics.
This unified inventory approach reduces procurement costs by 30-40% through volume discounts on single SIM variants rather than splitting orders across multiple specialized card types. Logistics simplify dramatically—warehouse operations handle one SKU instead of dozens, reducing storage complexity and eliminating the risk of deploying wrong SIM types to specific applications. When market demands shift, you repurpose existing inventory through OTA reconfiguration rather than scrapping specialized cards that no longer match deployment requirements.
Mobile payment capabilities and secure transaction processing create revenue opportunities beyond basic connectivity services. Enterprise customers increasingly demand SIMs supporting NFC-based access control, mobile wallet applications, and secure credential storage for corporate authentication. Consumer markets expect seamless integration with payment platforms like Apple Pay, Google Pay, and regional mobile payment ecosystems. Traditional SIM deployments lack the secure element applets and NFC configuration required for these services, forcing expensive card replacement when payment capabilities become business requirements.
Our platform enables remote deployment of payment applets and secure element applications to SIMs already in the field. When enterprise clients request NFC-based building access, you remotely install required applets without card replacement or truck rolls. Consumer payment service launches deploy wallet applications to existing subscriber SIMs through OTA updates, enabling immediate service availability across your entire base. This capability transforms SIMs from commodity connectivity products into differentiated service platforms supporting premium offerings that increase ARPU by 20-35%.
The secure element management includes comprehensive applet lifecycle capabilities—installation, updates, personalization, and deletion—all executed remotely with carrier-grade security. When payment partners update application versions to patch security vulnerabilities or add features, you deploy updates automatically without subscriber intervention. This continuous maintenance ensures compliance with evolving payment industry security standards while preventing the service disruptions that occur when outdated applet versions become deprecated by payment networks.
Modern operators rarely deploy single network technologies. Your infrastructure might include GSM networks serving voice and basic data, LTE networks for high-speed mobile broadband, CDMA for regional coverage, and emerging 5G deployments in urban markets. Traditional SIM management requires separate tools, different provisioning workflows, and specialized expertise for each technology, creating operational fragmentation that inflates costs and increases error probability.
Our unified platform manages SIM cards across all network technologies through a single dashboard interface. Whether configuring GSM authentication parameters, updating LTE APN settings, modifying CDMA provisioning profiles, or preparing SIMs for 5G SA deployments, you use identical workflows and management tools. This consolidation eliminates the need for multiple vendor platforms, reduces training requirements, and prevents the configuration inconsistencies that occur when different tools apply contradictory settings to multi-technology SIMs.
The cost savings prove substantial. MVNOs operating multi-technology networks typically spend €80,000-120,000 annually on disparate SIM management platforms—separate licensing fees, maintenance contracts, integration costs, and support personnel training for each vendor system. Platform consolidation eliminates 60-75% of these costs by replacing multiple vendor relationships with unified infrastructure. The operational efficiency gains compound through reduced error rates—when teams manage all technologies through consistent interfaces, configuration mistakes drop by 40-50% compared to environments requiring constant context switching between vendor-specific tools.
Physical SIM distribution creates enormous logistical overhead for operators managing large device fleets. IoT deployments in particular face brutal logistics challenges—devices deployed in remote locations, harsh environments, or physically inaccessible installations where site visits cost hundreds to thousands of euros per device. When SIM updates require physical card replacement, you face impossible choices: defer necessary updates indefinitely, or incur logistics costs that eliminate profitability from entire device deployments.
OTA updates eliminate physical logistics requirements entirely. When network providers change, security standards evolve, or service configurations require modification, you deploy updates remotely to devices anywhere in the world. A fleet of agricultural sensors spread across rural farmland receives updated roaming profiles without field technicians visiting each installation. Industrial equipment in manufacturing facilities gets new authentication credentials during scheduled maintenance windows, avoiding production disruptions that physical SIM access would require.
The logistics cost savings scale dramatically with deployment size. For IoT providers managing 100,000+ devices, physical SIM replacement campaigns cost €5-15 per device when accounting for card procurement, logistics coordination, technician time, and device downtime. OTA updates reduce this cost to €0.10-0.30 per device—a 97-98% cost reduction. Even accounting for platform fees and implementation, the first significant SIM update pays for platform deployment entirely, with subsequent updates delivering pure operational savings.
SIM inventory complexity increases exponentially as operations scale. Enterprise MVNOs might manage dozens of distinct SIM pools—consumer prepaid, consumer postpaid, enterprise voice, enterprise data-only, IoT asset tracking, IoT industrial sensors, roaming-optimized, region-specific—each with unique configuration requirements, billing rules, and network parameters. Managing this complexity through spreadsheets or vendor-specific tools creates operational chaos: configuration errors, audit trail gaps, and inability to quickly answer basic questions like “how many SIMs remain in our European IoT pool?”
Our dashboard provides unified visibility and control across all SIM pools regardless of technology, vendor, or deployment context. The interface organizes cards hierarchically by business logic that makes sense for your operations—by customer account, by geographic region, by application type, or by custom taxonomies matching your organizational structure. Each pool maintains independent configuration templates that apply automatically to new cards, ensuring consistent provisioning without manual parameter entry for every SIM.
The dashboard enables bulk operations that would be impossible through traditional tools. Select 10,000 SIMs deployed in industrial sensors and update their APN parameters simultaneously. Identify all cards approaching data allowance limits and automatically migrate them to unlimited plans. Tag SIMs by customer account and generate usage reports formatted for wholesale billing systems. These batch operations transform tasks requiring days or weeks of manual work into single-click operations completing within minutes.
Device location visibility provides critical operational intelligence for IoT deployments and enterprise mobility services. When devices go missing, understanding last-known locations accelerates recovery or insurance claim processing. For fleet management applications, location tracking enables route optimization, geofencing alerts, and stolen equipment recovery. Traditional approaches require integrating GPS hardware and separate tracking platforms, adding cost and complexity to every device deployment.
Our platform leverages network-based location data to provide approximate SIM positioning without requiring GPS hardware in every device. When SIMs connect to cellular networks, the platform records serving cell tower information that triangulates device locations to within 50-500 meters depending on network density. This data displays on interactive maps within the dashboard, showing real-time distribution of your entire SIM fleet across geographic regions.
The location intelligence supports multiple business applications. Logistics coordinators track shipment progress for devices in transit without requiring dedicated tracking hardware. Asset managers identify equipment clusters suggesting unauthorized device consolidation or potential theft. Network operations teams analyze device distributions to identify coverage gaps requiring infrastructure investment. The location history also provides audit trails supporting regulatory compliance for applications requiring documented device deployment verification.
Manual SIM management becomes operationally impossible beyond several thousand cards. When you need to update authentication parameters, modify network settings, or change security credentials across 50,000 or 500,000 SIMs, traditional approaches requiring physical access simply fail. Field technicians cannot visit tens of thousands of device locations within reasonable timeframes, and shipping replacement SIMs creates logistics nightmares that take months to complete while disrupting subscriber service during transitions.
Our remote management capabilities enable executing configuration changes across unlimited SIM populations through scheduled OTA campaigns. Define target SIM populations using flexible selection criteria—all cards in specific geographic regions, all SIMs on particular rate plans, all devices from certain customers—then schedule configuration updates for optimal timing. The platform manages rollout automatically, respecting rate limits to avoid overwhelming your network infrastructure while completing campaigns within hours rather than months.
The batch processing includes comprehensive safety mechanisms preventing catastrophic errors. Configuration changes deploy first to test populations, typically 1-5% of target SIMs. The platform monitors success rates and waits for explicit approval before proceeding to full deployment. If failure rates exceed configurable thresholds—indicating potential configuration errors or network issues—the system automatically halts rollout and alerts operations teams. This graduated deployment approach prevents single configuration mistakes from affecting entire SIM populations, a critical safeguard when managing hundreds of thousands of active cards.
SIM management platforms operating as standalone tools provide limited value regardless of feature sophistication. When provisioning, configuration updates, and lifecycle management require manual dashboard interactions, you create operational bottlenecks that prevent scaling. True operational efficiency demands bidirectional API integration where SIM management occurs automatically based on events in your billing systems, device management platforms, and customer portals.
Our comprehensive API enables complete platform functionality through programmatic interfaces. Your billing system automatically provisions new SIMs when customers purchase IoT services, applying configuration templates based on purchased service plans. Device management platforms query SIM status and connectivity data, integrating network information into unified device views. Customer self-service portals allow enterprise clients to manage their SIM allocations directly, creating organizational pools and assigning cards to specific departments or cost centers without requiring your support team’s involvement.
The API design follows RESTful principles with comprehensive SDKs for major programming languages—Java, Python, PHP, .NET, and Node.js. Complete OpenAPI specifications document every endpoint, parameter, and response format, enabling code generation for faster integration development. Webhook support provides event-driven architectures where the platform notifies your systems of significant events—SIM activation, data threshold exceeded, connectivity failures, location changes—allowing automated responses through your business logic without continuous polling.
