diff --git a/src/components/QuantumLandscapeChart.js b/src/components/QuantumLandscapeChart.js
index 7ebc62c..4823903 100644
--- a/src/components/QuantumLandscapeChart.js
+++ b/src/components/QuantumLandscapeChart.js
@@ -102,7 +102,7 @@ function scatterplot (
       return { ...obj, id: `ID_${index + 1}` }
     })
   if (_subsetName !== "All data") {
-    data = data.filter((x) => x.subsetName.toLowerCase() === _subsetName.toLowerCase())
+    data = data.filter((x) => (x.subsetName.toLowerCase() === _subsetName.toLowerCase()) || (x.subsetName.toLowerCase() === "both"))
   }
 
   // define aesthetic mappings
diff --git a/src/progress.csv b/src/progress.csv
index 50c288d..a959efc 100644
--- a/src/progress.csv
+++ b/src/progress.csv
@@ -3,14 +3,14 @@ Quantum supremacy using a programmable superconducting processor,"Nature volume
 Strong quantum computational advantage using a superconducting quantum processor,"Phys. Rev. Lett. 127, 180501 (2021-10-25)",2021,Quantum supremacy,Random circuit sampling,47,69,56,1590,true,Classically intractable
 Evidence for the utility of quantum computing before fault tolerance,"Nature volume 618, pages 500–505 (2023)",2023,Quantum supremacy,2D transverse-field Ising model,195,653,127,14400,true,Classically intractable
 "Quantinuum H-Series quantum computer accelerates through 3 more performance records for quantum volume: 2^17, 2^18, and 2^19",Quantinuum blog post (2023),2023,Quantum supremacy,Quantum volume,34,642,19,532,true,Other
-How to compute a 256-bit elliptic curve private key with only 50 million Toffoli gates,arXiv:2306.08585,2023,Cryptography,ECDLP,4,696,1152,50000000,false,Other
+How to compute a 256-bit elliptic curve private key with only 50 million Toffoli gates,arXiv:2306.08585,2023,Cryptography,ECDLP,4,696,1152,50000000,false,Both
 A Threshold for Quantum Advantage in Derivative Pricing,arXiv:2012.03819,2020,Finance,Derivative pricing,0,697,8000,12000000000,false,Quantum advantage
 Towards Quantum Advantage in Financial Market Risk using Quantum Gradient Algorithms,arXiv:2111.12509,2021,Finance,Derivative pricing,0,698,12000,12000000000,false,Quantum advantage
 Using Q# to estimate resources needed for quantum advantage in derivative pricing,https://cloudblogs.microsoft.com/quantum/2022/09/15/using-q-to-estimate-resources-needed-for-quantum-advantage-in-derivative-pricing/,2022,Finance,Derivative pricing,0,699,,,false,Quantum advantage
 Derivative Pricing using Quantum Signal Processing,arXiv:2307.14310,2023,Finance,Derivative pricing,0,700,4700,1000000000,false,Quantum advantage
-Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Physics simulation,Quantum dynamics,0,701,230,103000000000,false,Quantum advantage
-Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Physics simulation,Quantum chemistry,0,701,2740,33300000000000000,false,Quantum advantage
-Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Cryptography,Factoring,0,701,25481,28600000000000000,false,Quantum advantage
-Reliably assessing the electronic structure of cytochrome P450 on today's classical computers and tomorrow's quantum computers,arXiv:2202.01244,2022,Physics simulation,Quantum chemistry,0,726,1434,7800000000,false,Quantum advantage
-Reducing the Number of Qubits in Quantum Factoring,cryptoeprint:2024/222,2024,Cryptography,Factoring,0,762,1700,68719476736,false,Classically intractable
-Analyzing Prospects for Quantum Advantage in Topological Data Analysis,arXiv:2209.13581,2022,Machine learning,Topological data analysis,0,701,100,100000000,false,Quantum advantage
+Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Physics simulation,Quantum dynamics,0,701,230,103000000000,false,Both
+Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Physics simulation,Quantum chemistry,0,701,2740,33300000000000000,false,Both
+Assessing requirements to scale to practical quantum advantage,arXiv:2211.07629,2022,Cryptography,Factoring,0,701,25481,28600000000000000,false,Both
+Reliably assessing the electronic structure of cytochrome P450 on today's classical computers and tomorrow's quantum computers,arXiv:2202.01244,2022,Physics simulation,Quantum chemistry,0,726,1434,7800000000,false,Both
+Reducing the Number of Qubits in Quantum Factoring,cryptoeprint:2024/222,2024,Cryptography,Factoring,0,762,1700,68719476736,false,Both
+Analyzing Prospects for Quantum Advantage in Topological Data Analysis,arXiv:2209.13581,2022,Machine learning,Topological data analysis,0,701,100,100000000,false,Classically intractable