Industry-Leading Spatial Database
Real-time spatial and spatio-temporal analytics for digital twin implementations and industrial innovation
Industry-Leading Spatial Database
Real-time spatial and spatio-temporal analytics for digital twin implementations and industrial innovation
Key Features
Key Features
Key Feature 1
High-Speed In-Memory Transaction Processing
An in-memory DBMS that eliminates disk-bound I/O overhead and employs memory-optimized transaction algorithms to outperform traditional disk-based databases by orders of magnitude.
Maintains low-latency, stable transaction processing even in large-scale, real-time environments, ensuring the robust performance and reliability required by mission-critical systems.
Key Feature 1
High-Speed In-Memory Transaction Processing
An in-memory DBMS that eliminates disk-bound I/O overhead and employs memory-optimized transaction algorithms to outperform traditional disk-based databases by orders of magnitude.
Maintains low-latency, stable transaction processing even in large-scale, real-time environments, ensuring the robust performance and reliability required by mission-critical systems.
Key Feature 1
High-Speed In-Memory Transaction Processing
An in-memory DBMS that eliminates disk-bound I/O overhead and employs memory-optimized transaction algorithms to outperform traditional disk-based databases by orders of magnitude.
Maintains low-latency, stable transaction processing even in large-scale, real-time environments, ensuring the robust performance and reliability required by mission-critical systems.
Key Feature 2
Unified Relational and Spatio-Temporal Data Model
The world’s first multidimensional DBMS with native support for relational, 2D/3D spatial, spatio-temporal, and network data models.
Select the optimal data model for each use case and efficiently manage and analyze complex data structures on a single platform.
Key Feature 2
Unified Relational and Spatio-Temporal Data Model
The world’s first multidimensional DBMS with native support for relational, 2D/3D spatial, spatio-temporal, and network data models.
Select the optimal data model for each use case and efficiently manage and analyze complex data structures on a single platform.
Key Feature 2
Unified Relational and Spatio-Temporal Data Model
The world’s first multidimensional DBMS with native support for relational, 2D/3D spatial, spatio-temporal, and network data models.
Select the optimal data model for each use case and efficiently manage and analyze complex data structures on a single platform.
Kairos RDBMS™
In-memory relational DBMS providing high-speed transaction processing and high availability
Full support for standard SQL and a variety of application interfaces
Seamless compatibility with disk-based DBMSs through built-in synchronization
Optimized for real-time data processing in defense, telecom, finance, and service industries
Kairos Spatial™
The world’s first spatial DBMS built on Kairos RDBMS™
Supports geocoding integrated with 2D/3D spatial and topology-based network data models
Optimized for real-time spatial analytics in digital twins, defense systems, logistics, GIS, and location-based services (LBS)
Kairos MO™
The world’s first spatio-temporal DBMS built on Kairos Spatial™
Advanced spatio-temporal analytics in both 2D and 3D environments
Optimized for applications such as target tracking, autonomous mobility control and simulation, and indoor location-based service
Key Feature 3
Hybrid · Scalable Architecture for Large-Scale Data
Supports a hybrid mode that keeps real-time data in memory and offloads non-real-time data to disk when memory capacity is exceeded, and seamlessly scales out through a distributed cluster architecture.
Ensures reliable, real-time processing of large-scale data and seamlessly scales high-performance services across AI, IoT, and big-data applications.
Key Feature 3
Hybrid · Scalable Architecture for Large-Scale Data
Supports a hybrid mode that keeps real-time data in memory and offloads non-real-time data to disk when memory capacity is exceeded, and seamlessly scales out through a distributed cluster architecture.
Ensures reliable, real-time processing of large-scale data and seamlessly scales high-performance services across AI, IoT, and big-data applications.
Key Feature 3
Hybrid · Scalable Architecture for Large-Scale Data
Supports a hybrid mode that keeps real-time data in memory and offloads non-real-time data to disk when memory capacity is exceeded, and seamlessly scales out through a distributed cluster architecture.
Ensures reliable, real-time processing of large-scale data and seamlessly scales high-performance services across AI, IoT, and big-data applications.



Key Feature 4
Enterprise-Grade Reliability
Trusted by defense weapon systems and semiconductor fabs, with broad OS support ranging from Windows, Unix, and Linux to real-time operating systems. The technology and quality of Kairos™ have been validated by key domestic and international references, as well as numerous certifications and awards.
Ensures consistent performance across diverse industries and can be safely deployed in mission-critical environments.
Key Feature 4
Enterprise-Grade Reliability
Trusted by defense weapon systems and semiconductor fabs, with broad OS support ranging from Windows, Unix, and Linux to real-time operating systems. The technology and quality of Kairos™ have been validated by key domestic and international references, as well as numerous certifications and awards.
Ensures consistent performance across diverse industries and can be safely deployed in mission-critical environments.
Key Feature 4
Enterprise-Grade Reliability
Trusted by defense weapon systems and semiconductor fabs, with broad OS support ranging from Windows, Unix, and Linux to real-time operating systems. The technology and quality of Kairos™ have been validated by key domestic and international references, as well as numerous certifications and awards.
Ensures consistent performance across diverse industries and can be safely deployed in mission-critical environments.



Comparisons
Comparisons
Relational Data
PC-H Complex Query
A DBMS
0
Kairos RDBMS™
0
Performance Ratio vs. Others
Relational Data
PC-H Complex Query
A DBMS
0
Kairos RDBMS™
0
Performance Ratio vs. Others
Relational Data
PC-H Complex Query
A DBMS
0
Kairos RDBMS™
0
Performance Ratio vs. Others
Relational Data
TPC-B Simple Query
O DBMS
2000
M DBMS
2000
A DBMS
2000
Kairos RDBMS™
2000
Query Throughput
Relational Data
TPC-B Simple Query
O DBMS
2000
M DBMS
2000
A DBMS
2000
Kairos RDBMS™
2000
Query Throughput
Relational Data
TPC-B Simple Query
O DBMS
2000
M DBMS
2000
A DBMS
2000
Kairos RDBMS™
2000
Query Throughput
Spatial Data
4-Operator Complex Query
P DBMS
0
Kairos Spatial™
0
Query Throughput
Spatial Data
4-Operator Complex Query
P DBMS
0
Kairos Spatial™
0
Query Throughput
Spatial Data
4-Operator Complex Query
P DBMS
0
Kairos Spatial™
0
Query Throughput
Spatial Data
7-Operator Complex Query
O DBMS
0
Kairos Spatial™
0
Performance Ratio vs. Others
Spatial Data
7-Operator Complex Query
O DBMS
0
Kairos Spatial™
0
Performance Ratio vs. Others
Spatial Data
7-Operator Complex Query
O DBMS
0
Kairos Spatial™
0
Performance Ratio vs. Others