Celeron T1600 vs E1-6010
Aggregate performance score
Celeron T1600 outperforms E1-6010 by a minimal 3% based on our aggregate benchmark results.
Primary details
Comparing E1-6010 and Celeron T1600 processor market type (desktop or notebook), architecture, sales start time and price.
Place in the ranking | 3081 | 3067 |
Place by popularity | not in top-100 | not in top-100 |
Market segment | Laptop | Laptop |
Series | AMD E-Series | no data |
Power efficiency | 3.22 | 0.95 |
Architecture codename | Beema (2014) | no data |
Release date | 29 April 2014 (10 years ago) | 1 October 2008 (16 years ago) |
Detailed specifications
E1-6010 and Celeron T1600 basic parameters such as number of cores, number of threads, base frequency and turbo boost clock, lithography, cache size and multiplier lock state. These parameters indirectly say of CPU speed, though for more precise assessment you have to consider their test results.
Physical cores | 2 (Dual-core) | no data |
Threads | 2 | no data |
Base clock speed | no data | 1.66 GHz |
Boost clock speed | 1.35 GHz | no data |
L2 cache | 1024 KB | no data |
L3 cache | no data | 1 MB L2 Cache |
Chip lithography | 28 nm | 65 nm |
Die size | 107 mm2 | no data |
Maximum core temperature | no data | 100 °C |
Maximum case temperature (TCase) | 90 °C | no data |
64 bit support | + | + |
Windows 11 compatibility | - | - |
VID voltage range | no data | 1.075V-1.175V |
Compatibility
Information on E1-6010 and Celeron T1600 compatibility with other computer components: motherboard (look for socket type), power supply unit (look for power consumption) etc. Useful when planning a future computer configuration or upgrading an existing one. Note that power consumption of some processors can well exceed their nominal TDP, even without overclocking. Some can even double their declared thermals given that the motherboard allows to tune the CPU power parameters.
Number of CPUs in a configuration | 1 | no data |
Socket | FT3b | PPGA478 |
Power consumption (TDP) | 10 Watt | 35 Watt |
Technologies and extensions
Technological solutions and additional instructions supported by E1-6010 and Celeron T1600. You'll probably need this information if you require some particular technology.
Instruction set extensions | 86x SSE (1, 2, 3, 3S, 4.1, 4.2, 4A),-64, AES, AVX | no data |
AES-NI | + | - |
FMA | FMA4 | - |
AVX | + | - |
PowerNow | + | - |
PowerGating | + | - |
VirusProtect | + | - |
Enhanced SpeedStep (EIST) | no data | - |
Turbo Boost Technology | no data | - |
Hyper-Threading Technology | no data | - |
Idle States | no data | - |
Demand Based Switching | no data | - |
Security technologies
E1-6010 and Celeron T1600 technologies aimed at improving security, for example, by protecting against hacks.
TXT | no data | - |
EDB | no data | + |
Virtualization technologies
Virtual machine speed-up technologies supported by E1-6010 and Celeron T1600 are enumerated here.
AMD-V | + | - |
VT-x | no data | - |
IOMMU 2.0 | + | - |
Memory specs
Types, maximum amount and channel quantity of RAM supported by E1-6010 and Celeron T1600. Depending on the motherboard, higher memory frequencies may be supported.
Supported memory types | DDR3 | no data |
Max memory channels | 1 | no data |
Graphics specifications
General parameters of integrated GPUs, if any.
Integrated graphics card | AMD Radeon R2 Graphics | no data |
Enduro | + | - |
Switchable graphics | + | - |
UVD | + | - |
VCE | + | - |
Graphics interfaces
Available interfaces and connections of E1-6010 and Celeron T1600 integrated GPUs.
DisplayPort | + | - |
HDMI | + | - |
Graphics API support
APIs supported by E1-6010 and Celeron T1600 integrated GPUs, sometimes API versions are included.
DirectX | DirectX® 12 | no data |
Vulkan | + | - |
Peripherals
Specifications and connection of peripherals supported by E1-6010 and Celeron T1600.
PCIe version | 2.0 | no data |
PCI Express lanes | 8 | no data |
Synthetic benchmark performance
Various benchmark results of the processors in comparison. Overall score is measured in points in 0-100 range, higher is better.
Combined synthetic benchmark score
This is our combined benchmark performance rating. We are regularly improving our combining algorithms, but if you find some perceived inconsistencies, feel free to speak up in comments section, we usually fix problems quickly.
Passmark
Passmark CPU Mark is a widespread benchmark, consisting of 8 different types of workload, including integer and floating point math, extended instructions, compression, encryption and physics calculation. There is also one separate single-threaded scenario measuring single-core performance.
GeekBench 5 Single-Core
GeekBench 5 Single-Core is a cross-platform application developed in the form of CPU tests that independently recreate certain real-world tasks with which to accurately measure performance. This version uses only a single CPU core.
GeekBench 5 Multi-Core
GeekBench 5 Multi-Core is a cross-platform application developed in the form of CPU tests that independently recreate certain real-world tasks with which to accurately measure performance. This version uses all available CPU cores.
Pros & cons summary
Performance score | 0.34 | 0.35 |
Recency | 29 April 2014 | 1 October 2008 |
Chip lithography | 28 nm | 65 nm |
Power consumption (TDP) | 10 Watt | 35 Watt |
E1-6010 has an age advantage of 5 years, a 132.1% more advanced lithography process, and 250% lower power consumption.
Celeron T1600, on the other hand, has a 2.9% higher aggregate performance score.
Given the minimal performance differences, no clear winner can be declared between E1-6010 and Celeron T1600.
Should you still have questions on choice between E1-6010 and Celeron T1600, ask them in Comments section, and we shall answer.
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