Vultr - Intel Xeon 2 Core 2 GB Ram SG

Comprehensive VPS benchmark results from Singapore tested on Mar 07, 2023. Learn our methodology.

Intel Xeon 2 Core 2 GB Ram SG
Singapore
Mar 07, 2023
$18.00 /month
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Benchmark Steps

# Suite Run At Raw Output
1
UnixBench
v1
 Mar 07, 2023 12:47
View Raw Output 
------------------------------------------------------------------------
Benchmark Run: Tue Mar 07 2023 12:47:12 - 13:31:59
2 CPUs in system; running 1 parallel copy of tests

Dhrystone 2 using register variables       45581076.0 lps   (10.0 s, 10 samples)
Double-Precision Whetstone                     7831.7 MWIPS (9.8 s, 10 samples)
Execl Throughput                               3616.4 lps   (30.0 s, 4 samples)
File Copy 1024 bufsize 2000 maxblocks        536987.8 KBps  (30.0 s, 4 samples)
File Copy 256 bufsize 500 maxblocks          140477.5 KBps  (30.0 s, 4 samples)
File Copy 4096 bufsize 8000 maxblocks       1632854.4 KBps  (30.0 s, 4 samples)
Pipe Throughput                              715953.4 lps   (10.0 s, 10 samples)
Pipe-based Context Switching                  84918.6 lps   (10.0 s, 10 samples)
Process Creation                               9668.1 lps   (30.0 s, 4 samples)
Shell Scripts (1 concurrent)                   9216.6 lpm   (60.0 s, 4 samples)
Shell Scripts (8 concurrent)                   1971.5 lpm   (60.0 s, 4 samples)
System Call Overhead                         374959.2 lps   (10.0 s, 10 samples)

System Benchmarks Index Values               BASELINE       RESULT    INDEX
Dhrystone 2 using register variables         116700.0   45581076.0   3905.8
Double-Precision Whetstone                       55.0       7831.7   1423.9
Execl Throughput                                 43.0       3616.4    841.0
File Copy 1024 bufsize 2000 maxblocks          3960.0     536987.8   1356.0
File Copy 256 bufsize 500 maxblocks            1655.0     140477.5    848.8
File Copy 4096 bufsize 8000 maxblocks          5800.0    1632854.4   2815.3
Pipe Throughput                               12440.0     715953.4    575.5
Pipe-based Context Switching                   4000.0      84918.6    212.3
Process Creation                                126.0       9668.1    767.3
Shell Scripts (1 concurrent)                     42.4       9216.6   2173.7
Shell Scripts (8 concurrent)                      6.0       1971.5   3285.9
System Call Overhead                          15000.0     374959.2    250.0
                                                                   ========
System Benchmarks Index Score                                        1080.7

------------------------------------------------------------------------
Benchmark Run: Tue Mar 07 2023 13:31:59 - 14:16:48
2 CPUs in system; running 2 parallel copies of tests

Dhrystone 2 using register variables       91317204.9 lps   (10.0 s, 10 samples)
Double-Precision Whetstone                    15601.0 MWIPS (9.9 s, 10 samples)
Execl Throughput                               7080.8 lps   (29.8 s, 4 samples)
File Copy 1024 bufsize 2000 maxblocks       1013267.1 KBps  (30.0 s, 4 samples)
File Copy 256 bufsize 500 maxblocks          267264.8 KBps  (30.0 s, 4 samples)
File Copy 4096 bufsize 8000 maxblocks       3146185.3 KBps  (30.0 s, 4 samples)
Pipe Throughput                             1435081.0 lps   (10.0 s, 10 samples)
Pipe-based Context Switching                 324915.6 lps   (10.0 s, 10 samples)
Process Creation                              15928.5 lps   (30.0 s, 4 samples)
Shell Scripts (1 concurrent)                  14047.6 lpm   (60.0 s, 4 samples)
Shell Scripts (8 concurrent)                   2183.0 lpm   (60.0 s, 4 samples)
System Call Overhead                         744776.1 lps   (10.0 s, 10 samples)

System Benchmarks Index Values               BASELINE       RESULT    INDEX
Dhrystone 2 using register variables         116700.0   91317204.9   7825.0
Double-Precision Whetstone                       55.0      15601.0   2836.6
Execl Throughput                                 43.0       7080.8   1646.7
File Copy 1024 bufsize 2000 maxblocks          3960.0    1013267.1   2558.8
File Copy 256 bufsize 500 maxblocks            1655.0     267264.8   1614.9
File Copy 4096 bufsize 8000 maxblocks          5800.0    3146185.3   5424.5
Pipe Throughput                               12440.0    1435081.0   1153.6
Pipe-based Context Switching                   4000.0     324915.6    812.3
Process Creation                                126.0      15928.5   1264.2
Shell Scripts (1 concurrent)                     42.4      14047.6   3313.1
Shell Scripts (8 concurrent)                      6.0       2183.0   3638.3
System Call Overhead                          15000.0     744776.1    496.5
                                                                   ========
System Benchmarks Index Score                                        2059.1
2
Bench
v1
 Mar 07, 2023 14:29
View Raw Output 
-------------------- A Bench.sh Script By Teddysun -------------------
 Version            : v2022-06-01
 Usage              : wget -qO- bench.sh | bash
----------------------------------------------------------------------
 CPU Model          : Intel Core Processor (Skylake, IBRS)
 CPU Cores          : 2 @ 3695.998 MHz
 CPU Cache          : 16384 KB
 AES-NI             : Enabled
 VM-x/AMD-V         : Disabled
 Total Disk         : 74.9 GB (5.9 GB Used)
 Total Mem          : 1.9 GB (153.3 MB Used)
 Total Swap         : 1024.0 MB (10.6 MB Used)
 System uptime      : 0 days, 2 hour 50 min
 Load average       : 0.02, 3.13, 4.13
 OS                 : Ubuntu 20.04.5 LTS
 Arch               : x86_64 (64 Bit)
 Kernel             : 5.4.0-144-generic
 TCP CC             : bbr
 Virtualization     : KVM
 Organization       : AS20473 The Constant Company, LLC
 Location           : Singapore / SG
 Region             : Singapore
----------------------------------------------------------------------
 I/O Speed(1st run) : 1.2 GB/s
 I/O Speed(2nd run) : 1.1 GB/s
 I/O Speed(3rd run) : 1.1 GB/s
 I/O Speed(average) : 1160.5 MB/s
----------------------------------------------------------------------
 Node Name        Upload Speed      Download Speed      Latency
 Speedtest.net    6989.26 Mbps      9892.73 Mbps        1.15 ms
 Los Angeles, US  482.03 Mbps       411.32 Mbps         168.81 ms
 Dallas, US       430.49 Mbps       0.83 Mbps           218.18 ms
 Montreal, CA     350.26 Mbps       10.69 Mbps          261.69 ms
 Paris, FR        1194.62 Mbps      2357.41 Mbps        149.30 ms
 Amsterdam, NL    571.83 Mbps       460.35 Mbps         156.49 ms
 Shanghai, CN     715.12 Mbps       2037.80 Mbps        236.73 ms
 Nanjing, CN      12.97 Mbps        893.42 Mbps         216.92 ms
 Guangzhou, CN    1.91 Mbps         93.00 Mbps          243.10 ms
 Hongkong, CN     3397.61 Mbps      3157.08 Mbps        34.10 ms
 Singapore, SG    6797.87 Mbps      9095.37 Mbps        2.18 ms
 Tokyo, JP        1036.24 Mbps      8937.05 Mbps        69.08 ms
----------------------------------------------------------------------
 Finished in        : 6 min 8 sec
 Timestamp          : 2023-03-07 14:29:26 UTC
----------------------------------------------------------------------
3
PassMark
v1
 Mar 07, 2023 14:29
View Raw Output 
                          PassMark PerformanceTest Linux


Intel Core Processor (Skylake, IBRS) (x86_64)
1 cores @ 3695 MHz  |  1.9 GiB RAM
Number of Processes: 2  |  Test Iterations: 3  |  Test Duration: Very Long
--------------------------------------------------------------------------
CPU Mark:                          3473
  Integer Math                     8797 Million Operations/s
  Floating Point Math              7270 Million Operations/s
  Prime Numbers                    27.0 Million Primes/s
  Sorting                          5753 Thousand Strings/s
  Encryption                       1125 MB/s
  Compression                      42884 KB/s
  CPU Single Threaded              2254 Million Operations/s
  Physics                          422 Frames/s
  Extended Instructions (SSE)      2473 Million Matrices/s

Memory Mark:                       1547
  Database Operations              877 Thousand Operations/s
  Memory Read Cached               24264 MB/s
  Memory Read Uncached             12561 MB/s
  Memory Write                     11373 MB/s
  Available RAM                    1523 Megabytes
  Memory Latency                   43 Nanoseconds
  Memory Threaded                  19772 MB/s
--------------------------------------------------------------------------
4
Speedtest Global
v1
 Mar 07, 2023 14:44
View Raw Output 
version             : 1.7.0
your ip             : 2401:c080:1400:62ab:5400:4ff:fe56:2879
your ISP            : Choopa, LLC
test location code  : SIN
test location city  : Singapore
test location region: Asia Pacific

latency ms          : 3.0
Jitter ms           : 0.32

100kB download Mbps : 983.96
1MB download Mbps   : 3830.56
10MB download Mbps  : 3868.15
25MB download Mbps  : 3868.13

90th percentile download speed: 4539.68 Mbps

100kB upload Mbps   : 31.63
1MB upload Mbps     : 287.95
10MB upload Mbps    : 967.68

90th percentile upload speed  : 983.03 Mbps
1,222
Geekbench SC
2,163
Geekbench MC
238,900
Max IOPS
1,265.0
Avg MB/s

System Specifications

Memory 2.00 GB
Storage 80.00 GB
Bandwidth 3.00 TB
OS Ubuntu

Additional Benchmarks

Comprehensive performance metrics from specialized benchmark tools

UnixBench

System Performance Index

Single-Core Index Individual core performance
1,080.7
points
Multi-Core Index Parallel processing power
2,059.1
points

WordPress Bench

Web Application Performance

Overall Score WordPress performance rating
8.8
score

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CPU Performance (Geekbench)

CPU benchmarks measure processing power for compute-intensive tasks. Learn how we test CPU performance.

Single-Core Score
Individual core performance
1,222
Multi-Core Score
All cores combined performance
2,163

I/O Speed Summary (dd)

624.2 MB/s
Read Speed
627.5 MB/s
Write Speed
1.1 GB/s
Average I/O Speed
Performance Runs:
Run 1:
1.2
Run 2:
1.1
Run 3:
1.1

IOPS Performance by Block Size

FIO Benchmark Details

Detailed I/O performance test results

Test 1 - Block Size: 4k (mixed_rw_50_50)

119,300
Read IOPS
119,600
Write IOPS
477.4
Read MB/s
478.7
Write MB/s

Test 2 - Block Size: 64k (mixed_rw_50_50)

9,700
Read IOPS
9,800
Write IOPS
624.2
Read MB/s
627.5
Write MB/s

Test 3 - Block Size: 512k (mixed_rw_50_50)

1,300
Read IOPS
1,400
Write IOPS
691.3
Read MB/s
728.1
Write MB/s

Test 4 - Block Size: 1m (mixed_rw_50_50)

677
Read IOPS
722
Write IOPS
693.4
Read MB/s
739.6
Write MB/s
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Understanding VPS Benchmark Results

This comprehensive benchmark report provides detailed performance analysis for Vultr Intel Xeon 2 Core 2 GB Ram SG VPS in Singapore. Our standardized testing methodology measures CPU performance, disk I/O operations, network bandwidth, and real-world application performance to give you complete insights into VPS capabilities. Browse more VPS benchmarks to compare performance across providers.

Each benchmark metric serves a specific purpose in evaluating VPS performance. CPU benchmarks reveal processing power for applications, disk I/O tests measure storage performance for databases and file operations, network tests show bandwidth capacity for content delivery, and application benchmarks demonstrate real-world hosting performance. Together, these metrics provide a complete performance profile. Use our VPS comparison tool to analyze multiple plans side-by-side.

Benchmark Metrics & Features

Detailed Geekbench CPU performance scores (single & multi-core)

FIO disk I/O benchmarks with IOPS and bandwidth metrics

Network bandwidth testing with iPerf (download & upload speeds)

UnixBench system performance comprehensive results

WordPress real-world application performance tests

Sequential disk performance with DiskSeq benchmarks

Complete VPS specifications (CPU, RAM, storage details)

Provider and plan pricing information

Data center location and geographic details

Benchmark execution date and freshness indicators

Historical benchmark data for performance trends

AI-powered performance analysis and insights (for logged-in users)

Performance Analysis Use Cases

Evaluating VPS CPU performance for compute-intensive applications

Testing disk I/O performance for database workloads

Measuring network bandwidth for media streaming services

Comparing VPS performance across different providers

Analyzing WordPress site performance on specific VPS plans

Assessing value-for-money based on performance and pricing

Checking real-world application performance metrics

Understanding geographic performance variations by location

Reviewing detailed benchmark metrics before VPS purchase

Comparing single-core vs multi-core CPU performance

Validating provider performance claims with actual data

Making informed hosting decisions based on comprehensive benchmarks

How to Interpret Benchmark Results

1. CPU Performance (Geekbench)

Geekbench measures CPU performance through single-core and multi-core scores. Single-core scores (typically 800-2000) indicate performance for single-threaded applications and general responsiveness. Multi-core scores (1500-8000) show performance when all CPU cores are utilized for parallel processing. Higher scores mean better performance. Visit our testing methodology to learn more about CPU benchmarks.

2. Disk I/O Performance (FIO)

FIO benchmarks measure disk performance through IOPS (Input/Output Operations Per Second) and bandwidth (MB/s). High IOPS (10,000+ for NVMe, 5,000-10,000 for SSD) is crucial for database workloads with many small operations. High bandwidth is important for large file transfers and media applications. Compare disk performance across different providers in our database.

3. Network Bandwidth (iPerf)

Network tests measure download (incoming) and upload (outgoing) bandwidth capacity. Most modern VPS offers 1-10 Gbps connectivity. Download speed affects data ingestion, while upload speed determines content delivery performance to users. Consider your application's data transfer patterns when evaluating network metrics. Check our performance dashboard for network performance statistics.

4. Application Performance

Real-world application benchmarks (WordPress, UnixBench) show how the VPS handles typical web workloads including PHP processing, database queries, and static file serving. These results measured in requests per second and page load times directly apply to web hosting scenarios. Need help choosing the right VPS? Contact our team or visit about us to learn more about VPSMetrics.

Looking for more resources? Explore our free developer tools including SSL checkers, DNS lookup, WHOIS lookup, and server diagnostics to help you manage your VPS infrastructure effectively.

Frequently Asked Questions

How do I interpret the Geekbench single-core and multi-core scores?

Geekbench single-core scores indicate CPU performance for single-threaded applications, important for general responsiveness and web applications. Multi-core scores show performance when all CPU cores are utilized, crucial for parallel processing and multi-threaded applications. Higher scores indicate better performance. Modern VPS typically score 800-2000 (single) and 1500-8000 (multi) depending on the plan. Learn more about our comprehensive testing methodology for CPU benchmarks.

What do IOPS numbers mean in disk I/O benchmarks?

IOPS (Input/Output Operations Per Second) measures how many read/write operations your disk can handle per second. Higher IOPS means better performance for database operations and applications with many small file operations. NVMe SSD VPS typically delivers 10,000+ IOPS, while traditional SSD offers 5,000-10,000 IOPS. HDD-based storage usually provides under 1,000 IOPS. Visit our How We Test page to understand disk performance metrics in detail.

How important are network speed benchmarks?

Network bandwidth (measured by iPerf) is crucial for applications serving content, APIs, or media streaming. Download speeds affect how fast your server receives data, while upload speeds determine content delivery to users. Most modern VPS offers 1-10 Gbps network connectivity. Consider your application's data transfer requirements when evaluating network performance. Compare network speeds across different VPS providers in our database.

What is UnixBench and why does it matter?

UnixBench is a comprehensive system-level benchmark suite that tests various aspects of Unix-like system performance including process creation, file operations, and system calls. It provides a holistic view of overall system performance beyond just CPU or disk metrics. Higher UnixBench scores indicate better overall system efficiency. Browse all VPS benchmarks to compare UnixBench scores across providers and plans.

How reliable are WordPress benchmark results?

WordPress benchmarks provide real-world application performance metrics by testing actual WordPress installations. These results show how the VPS handles typical web application workloads including PHP processing, database queries, and static file serving. Results are measured in requests per second and page load times, directly applicable to web hosting scenarios. Check our performance dashboard to see which VPS plans excel at WordPress hosting.

Can I trust these benchmark results for my use case?

Our benchmarks provide standardized, reproducible test results using industry-standard tools. While they offer excellent performance indicators, your actual experience may vary based on your specific workload, application optimization, and usage patterns. Use these benchmarks as a reliable starting point for comparison between providers. Read about our methodology to understand how we ensure accuracy and consistency.

Why do benchmark results vary by location?

Different data center locations may have different hardware configurations, CPU generations, storage types, and network infrastructure. Providers often upgrade facilities at different rates across regions. Location-specific benchmarks help you choose a VPS in the right region with the best performance for your target audience. Use our benchmark filters to narrow down by location and compare provider performance across geographic regions.

How current are these benchmark results?

Each benchmark displays its execution date. We continuously add new benchmarks and re-test providers to capture infrastructure changes and upgrades. Check the benchmark date to ensure data freshness. Providers may upgrade CPUs, storage, or network capacity over time, affecting performance. Visit our dashboard to see the latest benchmark results and recent additions to our database.

What should I prioritize: CPU, disk, or network performance?

Priority depends on your workload. CPU-intensive applications (video processing, rendering) need high Geekbench scores. Database-heavy applications require high IOPS. Content delivery and API services benefit from high network bandwidth. Web applications typically need balanced performance across all metrics. Use our VPS comparison tool to analyze multiple plans side-by-side and find the best match for your requirements.

How do I use AI Summary for benchmark analysis?

The AI Summary feature (available for logged-in users) analyzes benchmark results and provides insights about performance strengths, weaknesses, and use case recommendations. It considers all benchmark metrics together to give you a comprehensive understanding of the VPS performance profile in plain language. Need help? Contact our support team or explore our free developer tools for additional VPS management utilities.

Making Informed VPS Decisions

Use these comprehensive benchmark results to make data-driven hosting decisions. Compare multiple metrics together rather than focusing on a single aspect - a balanced VPS performs well across CPU, disk, and network benchmarks. Consider your specific workload requirements: CPU-intensive applications need high Geekbench scores, database-heavy applications require high IOPS, and content delivery services benefit from high network bandwidth.

Our benchmarks provide standardized, reproducible test results using industry-standard tools. While they offer excellent performance indicators, your actual experience may vary based on specific workload patterns and application optimization. Use these benchmarks as a reliable starting point for comparison between providers and configurations.

Check the benchmark execution date to ensure data freshness - providers may upgrade infrastructure over time. Compare results from the same time period for fair evaluation. For the most comprehensive analysis, review multiple benchmarks from the same provider and location to understand performance consistency.

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