Compare your own system(s) to this result file with the
Phoronix Test Suite by running the command:
phoronix-test-suite benchmark 2009030-HU-2009036HU41
2020-09-02-native-armv7-softfloat
ARMv7 Cortex-A9 on resy-virt 3.1.2
native-armv7-neon-softfloat:
Processor: ARMv7 Cortex-A9 (4 Cores), Motherboard: Freescale i.MX6 Quad/DualLite (Device Tree) PHYTEC phyBOARD-Mira Quad Carrier-Board with NAND, Memory: 1024MB, Disk: 4GB SD04G
OS: resy-virt 3.1.2, Kernel: 5.4.47-custom-ml-virt (armv7l), Compiler: GCC 9.3.0, File-System: nfs
docker-armv7-neon-softfloat:
Processor: ARMv7 Cortex-A9 (4 Cores), Motherboard: Freescale i.MX6 Quad/DualLite (Device Tree), Memory: 1024MB, Disk: 4GB SD04G
OS: resy-container 3.1.2, Kernel: 5.4.47-custom-ml-virt (armv7l), Compiler: GCC 9.3.0, File-System: nfs, System Layer: Docker
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat:
Processor: ARMv7 Cortex-A9 (4 Cores), Motherboard: Freescale i.MX6 Quad/DualLite (Device Tree), Memory: 1024MB, Disk: 8GB SA08G
OS: resy-container 3.1.2, Kernel: 5.4.47-custom-ml-virt (armv7l), Compiler: GCC 9.3.0, File-System: nfs, System Layer: Docker
docker-armv7-neon-soft-over-cortexa9-neon-hf:
Processor: ARMv7 Cortex-A9 (4 Cores), Motherboard: Freescale i.MX6 Quad/DualLite (Device Tree), Memory: 1024MB, Disk: 8GB SA08G
OS: resy-container 3.1.2, Kernel: 5.4.47-custom-ml-virt (armv7l), Compiler: GCC 9.3.0, File-System: nfs, System Layer: Docker
SciMark 2.0
Computational Test: Composite
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 9.63 |==========
docker-armv7-neon-softfloat .................................. 9.62 |==========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 9.61 |==========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 9.62 |==========
SciMark 2.0
Computational Test: Jacobi Successive Over-Relaxation
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 16.11 |=========
docker-armv7-neon-softfloat .................................. 16.03 |=========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 16.03 |=========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 16.09 |=========
SciMark 2.0
Computational Test: Dense LU Matrix Factorization
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 10.45 |=========
docker-armv7-neon-softfloat .................................. 10.47 |=========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 10.46 |=========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 10.47 |=========
SciMark 2.0
Computational Test: Sparse Matrix Multiply
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 11.46 |=========
docker-armv7-neon-softfloat .................................. 11.45 |=========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 11.46 |=========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 11.47 |=========
SciMark 2.0
Computational Test: Fast Fourier Transform
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 4.20 |==========
docker-armv7-neon-softfloat .................................. 4.21 |==========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 4.17 |==========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 4.15 |==========
SciMark 2.0
Computational Test: Monte Carlo
Mflops > Higher Is Better
native-armv7-neon-softfloat .................................. 5.92 |==========
docker-armv7-neon-softfloat .................................. 5.95 |==========
docker-armv7-neon-softfloat-over-native-armv7-neon-hardfloat . 5.93 |==========
docker-armv7-neon-soft-over-cortexa9-neon-hf ................. 5.93 |==========